CN108702559A - The wireless device of the wearable type of ear and its system of support - Google Patents

Abstract

Provide a kind of electronic equipment comprising shell, the shell are configured to be removably mounted on the ear of user.Shell includes radio communication circuit, battery, loud speaker, at least one sensor and the memory for being electrically connected to radio communication circuit, battery, loud speaker, at least one sensor, the processor of memory and storage audio data.Processor is configured as asking to connect from external equipment, the external equipment is configured with telecommunication circuit and is removably mounted on another ear of user, based on whether receiving at least part at least one signal that external equipment is received to the response of connection request and/or by the formation of requested connection from external equipment, determination will be from the part that audio data stored in memory exports;Identified part is exported with by loud speaker.

Description

The wireless device of the wearable type of ear and its system of support

Technical field

The present disclosure relates generally to the wearable type wireless device of ear and support the wearable type wireless device of the ear system, More particularly, to the wearable type wireless device of ear that can be stored and independently reverberation frequency improves availability according to this.

Background technology

With the development of electronic communication industry, user equipment has become the necessity of modern society, and can be embodied in In various body wearable types, to improve portability and user's accessibility.

User equipment can be the wearable wireless type of such as ear (for example, wireless headset), and user can be inserted Ear in or be in close contact with the ear of user.The wearable type wireless device of ear can also be wirelessly connected to external electrical and set Standby (for example, smart phone), for audio data streaming to be transferred to the wearable type wireless device of ear and for reproducing streaming Audio data.

However, since the wearable type wireless device of ear does not store audio data, the wearable type wireless device of ear It is difficult to independently export sound in the case of the audio data steaming transfer of not external electronic device.

Invention content

According to the one side of the disclosure, a kind of wearable type wireless device of ear is provided, can be stored and independently Reproduce audio data.

According to the one side of the disclosure, a kind of electronic equipment, shell are provided, including is configured to be removably mounted on On the ear of user;Shell includes radio communication circuit, battery, loud speaker, at least one sensor and is electrically connected to The memory of radio communication circuit, battery, loud speaker, at least one sensor, the processor of memory and storage audio data. Processor is configured as asking to connect from external equipment, which is configured with telecommunication circuit and is removably mounted on On another ear of user, the audio number to be exported from audio data stored in memory is determined based on following one According to:Whether receive external equipment and receives at least one signal to the response of connection request and from external equipment;With by raising Audio data determined by the output of sound device.

According to the one side of the disclosure, a kind of electronic equipment is provided comprising be configured as being removably mounted on use Shell on one ear at family.Shell includes radio communication circuit, battery, loud speaker, at least one sensor including is electrically connected It is connected to the processor of radio communication circuit, battery, loud speaker, at least one sensor, storage device and volatile memory.Place Reason device is configured as receiving audio data from the first external equipment, and the audio data of reception is stored in volatile memory, It asks to connect from the second external equipment by using telecommunication circuit, which is configured as being removably mounted on use On another ear at family, the sound to be exported from the audio data being stored in volatile memory is determined based on following one Frequency evidence:Whether to the response of connection request and from second external equipment receiving at least from second external equipment is received One signal;And pass through the determining audio data of loud speaker output.

According to the one side of the disclosure, a kind of electronic equipment including shell is provided.Shell includes telecommunication circuit, at least One power interface, the control circuit for being electrically connected to telecommunication circuit and at least one power interface and at least one fixed structure Part, it includes the first earphone (earpiece) of the first battery and the second ear including the second battery that fixing component, which is configured to accommodate, One in machine.Control circuit is configured with telecommunication circuit and forms connection with external mobile electronic device, mobile from outside Electronic equipment receives one or more contents, and one one or more contents are sent in the first earphone and the second earphone It is a.

According to the one side of the disclosure, a kind of method of operation electronic equipment is provided.This method includes:Reception is stored in The rendering requests of audio data in the memory of electronic equipment;Obtain the state letter for the external equipment for being connected to electronic equipment Breath;The audio data to be exported from audio data stored in memory is determined based on acquired status information, and is passed through Audio data determined by the loud speaker output of electronic equipment.

According to the one side of the disclosure, a kind of method of operation electronic equipment is provided.This method includes receiving to be stored in The transmission of audio data in the memory of electronic equipment is asked, and confirms whether the first external equipment and the second external equipment connect To electronic equipment, when confirm the first external equipment and the second external equipment it is at least one be not attached to electronic equipment when, make biography Defeated request is invalid, and when confirming that the first external equipment and the second external equipment are connected to electronic equipment, audio data is sent out It is sent to the first external equipment and the second external equipment.

Description of the drawings

By the detailed description below in conjunction with attached drawing, in terms of the above and other of certain embodiments of the present invention, feature and Advantage will be apparent from, wherein:

Fig. 1 is the diagram of the network environment according to an embodiment of the present disclosure including electronic equipment;

Fig. 2 is the diagram of electronic equipment according to an embodiment of the present disclosure;

Fig. 3 is the diagram of program module according to an embodiment of the present disclosure;

Fig. 4 and Fig. 5 is the diagram of the wearable set of wireless devices of ear according to an embodiment of the present disclosure;

Fig. 6 is the diagram of the wearable set of wireless devices of ear according to an embodiment of the present disclosure;

Fig. 7 is the diagram of electronic equipment according to an embodiment of the present disclosure;

Fig. 8 is the diagram of processor according to an embodiment of the present disclosure;

Fig. 9 A are the signaling diagrams of the communication process of the system between electronic equipment according to an embodiment of the present disclosure;

Fig. 9 B are the signaling diagrams of the communication process of the system between electronic equipment according to an embodiment of the present disclosure;

Fig. 9 C are the signaling diagrams of the communication process of the system between electronic equipment according to an embodiment of the present disclosure;

Fig. 9 D are the diagrams of the communication stream of the system between electronic equipment according to an embodiment of the present disclosure;

Fig. 9 E are the signaling diagrams of the communication stream of the system between electronic equipment according to an embodiment of the present disclosure;

Fig. 9 F are the signaling diagrams of the communication stream of the system between electronic equipment according to an embodiment of the present disclosure;

Figure 10 A are the signaling diagrams of the communication stream of the system between electronic equipment according to an embodiment of the present disclosure;

Figure 10 B are the signaling diagrams of the communication stream of the system between electronic equipment according to an embodiment of the present disclosure;

Figure 11 is the flow chart of the operating method of electronic equipment according to an embodiment of the present disclosure;

Figure 12 is the flow of the step 1107 of the method for Figure 11 according to an embodiment of the present disclosure;

Figure 13 is the flow chart of the method for the operation of external electronic device according to an embodiment of the present disclosure;

Figure 14 A are the signaling diagrams of the communication stream of system according to an embodiment of the present disclosure;

Figure 14 B are the signaling diagrams of the communication stream of system according to an embodiment of the present disclosure;

Figure 15 is the flow chart of the method for the operation of the first electronic equipment of Figure 14 A according to an embodiment of the present disclosure;

Figure 16 is the flow chart of the method for the operation of the second electronic equipment of Figure 14 A according to an embodiment of the present disclosure;

Figure 17 is the diagram of third electronic equipment according to an embodiment of the present disclosure;

Figure 18 is the diagram of electronic equipment according to an embodiment of the present disclosure;

Figure 19 is the signaling diagram of the communication stream of system according to an embodiment of the present disclosure;

Figure 20 is the flow chart of the method for the operation of the third electronic equipment of Figure 18 according to an embodiment of the present disclosure;

Figure 21 A to 21C are according to an embodiment of the present disclosure for sensing the first electronic equipment and the second electronic equipment phase For the diagram of the circuit of the connection status of third electronic equipment;

Figure 22 is the signaling diagram of the communication stream of system according to an embodiment of the present disclosure;

Figure 23 A are the signaling diagrams of the communication stream of system according to an embodiment of the present disclosure;

Figure 23 B are the signaling diagrams of the communication stream of system according to an embodiment of the present disclosure;

Figure 24 is the diagram of system according to an embodiment of the present disclosure;

Figure 25 is the signaling diagram of the lower current-carrying of audio data according to an embodiment of the present disclosure;

Figure 26 is the signaling diagram of the steaming transfer stream of audio data according to an embodiment of the present disclosure;

Figure 27 is the signaling diagram of the communication stream of system according to an embodiment of the present disclosure;

Figure 28 is the flow chart of the method for the operation of the 4th electronic equipment of Figure 24 according to an embodiment of the present disclosure;

Figure 29 A to 29C are the figures of the operating process of the method for Figure 28 according to an embodiment of the present disclosure;

Figure 30 is the signaling diagram of the communication stream of system according to an embodiment of the present disclosure;

Figure 31 is the flow chart of the method for the operation of the 4th electronic equipment of Figure 30 according to an embodiment of the present disclosure;

Figure 32 A to 32C are the diagrams of the communication stream of system according to an embodiment of the present disclosure;

Figure 33 is the diagram of the communication stream of system according to an embodiment of the present disclosure;

Figure 34 is the diagram of the communication stream of system according to an embodiment of the present disclosure;

Figure 35 is the diagram of the communication stream of system according to an embodiment of the present disclosure;

Figure 36 is the diagram of the communication stream of system according to an embodiment of the present disclosure;

Figure 37 is the diagram of the communication stream of system according to an embodiment of the present disclosure;

Figure 38 is the diagram of the communication stream of system according to an embodiment of the present disclosure;With

Figure 39 is the diagram of the communication stream of system according to an embodiment of the present disclosure.

Specific implementation mode

Example is described implementation of the disclosure below with reference to the accompanying drawings.However, embodiment of the disclosure is not limited to specific embodiment, And all modifications, change, equivalent apparatus and the method, and/or alternate embodiment of the disclosure should be interpreted as including.Attached In the description of figure, similar reference numeral is used for similar element.

Term " having " used herein, " can have ", " comprising " and " may include " indicate that there are corresponding feature (examples Such as, such as element of numerical value, function, operation or component etc), and do not exclude the presence of other features.

Terms used herein " A or B ", " at least one of A or/and B " or " one or more of A or/and B " are wrapped Include all possible combinations for the project enumerated with them.For example, " A or B ", " at least one of A and B " or " in A or B extremely It is one few " indicate that (1) includes at least one A;(2) include at least one B;Or (3) include at least one A and at least one B.

Such as term of " first " and " second " used herein can change various elements but regardless of the suitable of respective element Sequence and/or importance, and corresponding element is not limited.These terms can be used for distinguishing an element with another element Purpose.For example, the first user equipment and second user equipment can indicate different user equipmenies but regardless of sequentially or important Property.For example, without departing from the scope of the invention, first element can be referred to as second element, and similarly, the Two element can be referred to as first element.

It should be appreciated that when " (operationally or communicatedly) is with another element (for example, second for element (for example, first element) Element) coupling " or when " being connected to " another element (for example, second element), the element can be directly with another element Coupling, and may exist intermediary element (for example, third element) between the element and another element.On the contrary, should manage Solution, when an element (for example, first element) and another element (for example, second element) " direct-coupling " or " being directly connected to " When, intervening elements (for example, third element) are not present between the element and another element.

Statement " being configured to (or being set as) " used herein can based on context with " being suitable for ", " have capacity ", " being designed as ", " adaptation ", " manufacture " or " can " be used interchangeably.Term " be configured to and (be set as) " is not necessarily mean that in hardware Rank " is specifically designed as ".On the contrary, statement " device being configured to ... " can indicate in the device and certain contexts Other devices or component are together " can ... ".For example, " being configured to and (be set as) execute the processor of A, B and C " can indicate to use In the application specific processor (for example, embeded processor) for executing corresponding operating, or can be stored in storage device by executing One or more software programs execute the general processor (for example, CPU or application processor) of corresponding operating.

The term of various embodiments for describing the disclosure is the purpose for description specific embodiment, and is not intended to Limit the disclosure.As used herein, unless the context is clearly stated, otherwise singulative is also intended to including plural form. Unless otherwise stated, all terms (including technology or scientific terminology) used herein have and related field ordinary skill The identical meaning of the normally understood meaning of personnel.Term defined in usually used dictionary should be interpreted as having and phase The same or analogous meaning of context implication of pass technology, and ideal or the meaning exaggerated are should not be interpreted as having, unless They are explicitly defined herein.Term according to circumstances or even defined in the disclosure is also not construed as excluding the disclosure Embodiment.

Term " module " used herein can for example indicate include one of hardware, software and firmware or in them two The unit of a or more combination." module " can be with such as term " unit ", " logic ", " logical block ", " component " or " electricity Road " is used interchangeably." module " can be integrated package element or part thereof of minimum unit." module " can be performed for One or more functions or part thereof of minimum unit." module " can be realized mechanically or electronically.For example, according to this hair Bright " module " may include for executing the application-specific integrated circuit with operation that is hereinafter known or will developing (ASIC) at least one of chip, field programmable gate array (FPGA) and programmable logic device.

Electronic equipment according to the disclosure may include such as smart phone, tablet personal computer (PC), mobile phone, Visual telephone, E-book reader (e-book readers), desktop PC, PC on knee, netbook computer, work station, server, Personal digital assistant (PDA), portable media player (PMP), MPEG-1 audio layers -3 (MP3) player, portable medical At least one of equipment, camera and wearable device.Wearable device may include type of attachment (for example, wrist-watch, ring, hand Bracelet, ankletbangle, necklace, glasses, contact lenses or headset equipment (HMD)), fabric or clothes integrated-type (for example, Electronic Clothes), At least one of body mount type (for example, pad skin or tatoo) and biology implantable (for example, implantable circuit).

Electronic equipment can be household electrical appliance.Household electrical appliance may include such as TV, digital video disc (DVD) broadcasting Device, audio player, refrigerator, air-conditioning, vacuum cleaner, oven, micro-wave oven, washing machine, air purifier, set-top box, family Automation control panel, security control panel, TV box are (for example, Samsung HomeSync^TM,Apple TV^TMOr Google TV^TM), game machine is (for example, Xbox^TMAnd PlayStation^TM), electronic dictionary, electron key, portable camera and digital photo frame At least one of.

Electronic equipment may include various Medical Devices (for example, (blood sugar monitoring is set various portable medical measuring apparatus Standby, heart rate monitor apparatus, blood pressure measurement device, body temperature measuring devices etc.), magnetic resonance angiography (MRA), magnetic resonance imaging (MRI), computed tomography (CT) machine and ultrasound machine), navigation equipment, global positioning system (GPS) receiver, event number According to logger (EDR), flight data recorder (FDR), vehicle infotainment device, ship electronic equipment (such as marine navigation Device and gyrocompass), avionic device, safety device, automobile head device, household or industrial robot, in bank Point of sale (POS) equipment or Internet of Things (IoT) equipment in ATM (ATM), shop is (for example, light bulb, various sensings Device, ammeter or gas meter, flow meter, fire-alarm, thermostat, street lamp, bread baker, sports goods, boiler, add sprinkler installation At least one of hot device, boiler etc.).

Electronic equipment may include a part for furniture or building/structure, electron plate, electronic signature receiving device, throw At least one of shadow instrument and various measuring instruments (for example, water meter, ammeter, gas meter, flow meter and radio wave table).Electronic equipment can To be the combination of one or more of aforementioned various equipment.Electronic equipment can be flexible apparatus.In addition, electronic equipment is unlimited In above equipment, and it may include the new electronic equipment according to the development of new technology.

Hereinafter, electronic equipment will be described with reference to the drawings.In the disclosure, term " user " can indicate to use electronics The people of equipment or the equipment (for example, artificial intelligence electronic equipment) for using electronic equipment.

Fig. 1 is the figure of the network environment according to an embodiment of the present disclosure including electronic equipment.

The electronic equipment 101 operated in network environment 100 is shown in FIG. 1.Electronic equipment 101 include bus 110, Processor 120, memory 130, input/output interface 150, display 160 and communication interface 170.Electronic equipment 101 can save It omits at least one of said modules or other assemblies can be also comprised.

Bus 110 may include that said modules 110 to 170 are for example interconnected to and sent between the components communication (for example, control Message or data processed) circuit.

Processor 120 may include in central processing unit (CPU), application processor (AP) and communication processor (CP) It is one or more.Processor 120 can execute one or more other assemblies for example with electronic equipment 101 control and/or Communicate relevant arithmetical operation or data processing.

Memory 130 may include volatile memory and/or nonvolatile memory.Memory 130 can store example Such as with the relevant order or data of one or more other assemblies of electronic equipment 101.Memory 130 can store software and/ Or program 140.Program 140 may include for example kernel 141, middleware 143, application programming interface (API) 145 and/or Using (or " application program ") 147.At least one of kernel 141, middleware 143 and API 145 can be quoted as operation System (OS).

Kernel 141 can control or manage for example for execute other programs (for example, middleware 143, API 145 or Using the 147) system resource (for example, bus 110, processor 120 or memory 130) of the middle operation realized or function.In addition, Kernel 141 can provide allow middleware 143, API 145 or application program 147 access the various components of electronic equipment 101 with Just control or manage the interface of system resource.

Middleware 143 can play the part of intermediate role so that such as API 145 or application 147 can be communicated with kernel 141 with Just data are exchanged.

In addition, middleware 143 can be asked according to one or more tasks that priority processing is received from application program 147 It asks.For example, middleware 143 can will use electronic equipment 101 system resource (for example, bus 110, processor 120 or Memory 130) priority distribution be given at least one of application program 147.Such as.Middleware 143 can pass through basis The priority processing one or more request distributed executes scheduling, load balance etc. to one or more task requests.

API 145 is, for example, the interface for allowing application program 147 to control the function of being provided from kernel 141 or middleware 143, And may include such as the one or more interfaces or work(document control, window control, image procossing, character control Energy (for example, order).

Input/output interface 150 may be used as the order for example inputted from user or any other external equipment or number According to the interface for the other assemblies for being sent to electronic equipment 101.In addition, input/output interface 150 can will be from electronic equipment 101 Other assemblies receive order or data be output to user or other external equipments.

Display 160 may include such as liquid crystal display (LCD), light emitting diode (LED) display, organic light-emitting diodes Manage (OLED) display or MEMS (MEMS) display or electric paper display.Display 160 can to for example with Family shows various contents (for example, text, image, video, icon or symbol).Display 160 may include touch screen, and can Touch input, gesture input, close input or the hovering made with the part received using such as electronic pen or user's body Input.

Such as electronic equipment 101 and external equipment can be arranged (for example, the first external electronic device in communication interface 170 102, the second external equipment 104 or server 106) between communication.For example, communication interface 170 can be by wired or wireless Communication is connect with network 162, to be communicated with the second external electronic device 104 or server 106.

Wireless communication can use such as long term evolution (LTE), LTE advanced (LTE-A), CDMA (CDMA), broadband In CDMA (WCDMA), Universal Mobile Telecommunications System (UMTS), WiMAX (WiBro) or global system for mobile communications (GSM) It is at least one to be used as cellular communication protocol.In addition, wireless communication may include such as short haul connection 164.Short haul connection 164 May include in such as Wireless Fidelity (WiFi), bluetooth, near-field communication (NFC) and Global Navigation Satellite System (GNSS) at least One.For example, according to such as using area or bandwidth, GNSS may include global positioning system (GPS), Glonass, the Big Dipper and At least one of Galileo, European Global Satellite Navigation System.Here, " GPS " can be used interchangeably with following " GNSS ". Wire communication can use such as universal serial bus (USB), high-definition multimedia interface (HDMI), proposed standard 232 (RS-232) and at least one of plain old telephone service (POTS).Network 162 may include telecommunication network, for example, meter At least one of calculation machine network (for example, LAN (LAN) or wide area network (WAN)), internet and telephone network.

Each in first external electronic device 102 and the second external electronic device 104 can be and electronic equipment 101 Identical or different a type of equipment.Server 106 may include one group of one or more server.

To be executed by electronic equipment 101 all or some are operated to be set by another electronic equipment or other multiple electronics Standby (for example, electronic equipment 102 and 104 or server 106) executes.In electronic equipment 101 automatically or by asking to execute spy In the case of determining function or service, electronic equipment 101 can ask associated therewith from electronic equipment 102 and 104 or server 106 Some function or services of connection, rather than function or service oneself is executed either other than oneself executes function or service. Electronic equipment 102 and 104 or server 106 can execute requested function or additional function, and result can be transmitted To electronic equipment 101.Electronic equipment 101 can be by handling received result or additionally being asked to provide as it is Function or service.For this purpose, it is, for example, possible to use cloud computing technology, distributed computing technology or client-server meter Calculation technology.

Fig. 2 is the diagram of electronic equipment according to an embodiment of the present disclosure.

Electronic equipment 201 may include all or some component of electronic equipment 101 shown in such as Fig. 1.Electronics is set Standby 201 may include at least one processor (for example, AP) 210, communication module 220, Subscriber Identity Module (SIM) 224, storage Device 230, sensor assembly 240, input equipment 250, display 260, interface 270, audio-frequency module 280, camera model 291, electricity Source control module 295, battery 296, indicator 297 and motor 298.

Processor 210 can drive such as OS or AP to control multiple hardware or component software connected to it, and Various data processings and arithmetical operation can also be performed.Processor 210 can be realized for example, by system on chip (SoC).Place Reason device 210 may also include graphics processing unit (GPU) and/or image-signal processor.Processor 210 may include institute in Fig. 2 At least some of component shown component (for example, cellular module 221).Processor 210 can will be from least one other component The order or data that (for example, nonvolatile memory) receives is loaded into volatile memory to handle order and data, and And various data can be stored in the nonvolatile memory.

Communication module 220 can have the 170 same or analogous configuration of communication interface with Fig. 1.Communication module 220 can be with Including, for example, cellular module 221, WiFi module 223, bluetooth module 225, GNSS module 227 (for example, GPS module, Glonass modules, big dipper module or Galileo modules), NFC module 228 and radio frequency (RF) module 229.

Cellular module 221 can provide such as audio call, video call, messenger service or internet by communication network Service.Cellular module 221 can execute the discrimination of the electronic equipment 201 in communication network by using SIM card 224 and recognize Card.Cellular module 221 can execute can be by least some of multimedia control function that processor 210 provides function.Bee Snap block 221 may include CP.

Each in WiFi module 223, bluetooth module 225, GNSS module 227 and NFC module 228 may include for example Processor, to handle the data by corresponding module transmission/reception.Cellular module 221, WiFi module 223, bluetooth module 225, At least some of GNSS module 227 and NFC module 228 (for example, two or more) may be incorporated in single integrated chip (IC) or in IC package.

RF modules 229 can send/receive signal of communication (for example, RF signals).RF modules 229 may include for example receiving and dispatching Device, power amplifier module (PAM), frequency filter, low-noise amplifier (LNA) or antenna.Cellular module 221, WiFi moulds At least one of block 223, bluetooth module 225, GNSS module 227 and NFC module 228 can be by one or more individual RF modules send/receive RF signals.

SIM card 224 may include embedded SIM, and can also be including intrinsic identification information (for example, integrated circuit card Identifier (ICCID)) or subscriber information (for example, International Mobile Subscriber mark (IMSI)).

Memory 230 may include such as internal storage 232 or external memory 234.Internal storage 232 can wrap Such as volatile memory is included (for example, dynamic random access memory (DRAM), static state RAM (memory RAM) or synchronous dram (SDRAM)), nonvolatile memory is (for example, disposable programmable read only memory (ROM) (OTPROM), programming ROM (PROM), erasable and programming ROM (EPROM), electric erasable and programming ROM (EEPROM), mask rom, flash rom, At least one of flash memory (for example, nand flash memory or NOR flash memory), hard disk drive or solid state drive (SSD)).

External memory 234 can also include flash drive (for example, compact flash (CF), secure digital (SD), micro- Secure digital (Micro-SD), mini secure digital (Mini-SD), extreme digital (xD), multimedia card (MMC) or memory stick). External memory 234 functionally and/or can be connected physically to electronic equipment 201 by various interfaces.

For example, sensor assembly 240 can measure physical quantity or can be with the mode of operation of sensing electronic equipment 201, so It can will measure afterwards or the information of sensing is converted to electric signal.Sensor assembly 240 may include such as gesture sensor 240A, top Spiral shell instrument sensor 240B, barometric pressure sensor 240C, Magnetic Sensor 240D, acceleration transducer 240E, grip sensor 240F, proximity sensor 240G, color sensor 240H (for example, red, green, blue (RGB) sensor), biosensor At least one of 240I, temperature/humidity sensor 240J, illuminance transducer 240K and ultraviolet (UV) sensor 240M.It is additional Ground or alternatively, sensor assembly 240 may include such as electronic nose sensor, electromyogram (EMG) sensor, electroencephalogram (EEG) Sensor, electrocardiogram (ECG) sensor, infrared (IR) sensor, iris sensor and/or fingerprint sensor.Sensor assembly 240 can also include the control circuit for controlling the one or more sensors being incorporated in.Electronic equipment 201 can be with Including processor, which is configured as the part or and processor for processor 210 by the control of sensor assembly 240 210 separate, to control sensor assembly 240 when processor 210 is in sleep state.

Input equipment 250 may include such as touch tablet 252, (number) sensor 254, key 256 or ultrasonic input equipment 258.As touch tablet 252, can be used for example capacitive touch panel, resistance type contact panel, infrared type touch panel and At least one of ultrasonic wave panel.Moreover, touch tablet 252 can also include control circuit.Touch tablet 252 can also include touching Layer is felt, to provide a user tactile response.

(number) sensor 254 can be a part for such as touch tablet or may include individual identification piece.Key 256 may include such as physical button, optical key or keypad.Ultrasonic input equipment 258 can by microphone 288 sense by The ultrasonic wave that input tool generates is to confirm that data corresponding with the ultrasonic wave sensed.

Display 260 may include panel 262, hologram device 264 or projecting apparatus 266.Panel 262 may include and Fig. 1 Display 160 the same or analogous configuration of configuration.Panel 262 can be flexible, is transparent or wearable.Panel 262 can be the individual module with touch panel 252.Hologram device 264 can use the interference of light to show solid in the air Image.Projecting apparatus 266 can project light onto on screen to show image.Screen can be located at the interior of such as electronic equipment 201 Portion or outside.Display 260 can also include the control circuit of control panel 262, hologram device 264 or projecting apparatus 266.

Interface 270 may include such as HDMI 272, USB 274, optical interface 276 or d- microminiatures (D-sub) 278. For example, interface 270 may include in the communication interface 170 shown in Fig. 1.Additionally or alternatively, interface 270 may include example Such as mobile high definition link (MHL) interface, SD card/MMC interfaces or Infrared Data Association (IrDA) standard interface.

Audio-frequency module 280 can be with bi-directional conversion such as sound and electric signal.At least some components of audio-frequency module 280 can be with It is included in input/output interface 150 shown in such as Fig. 1.Audio-frequency module 280 can handle for example, by loud speaker 282, The acoustic information of receiver 284, earphone 286 or the input of microphone 288 or output.

Camera model 291 can be the equipment that can shoot such as static image and video image.Camera model 291 can be with Including at least one imaging sensor (for example, front sensor or rear sensor), camera lens, image-signal processor (ISP) or dodge Light lamp (for example, LED or xenon lamp).

Power management module 295 can manage the electric power of such as electronic equipment 201.Power management module 295 may include Power management IC (PMIC), charger IC (IC) or battery gauge.PMIC is configurable to wiredly and/or wirelessly charge type. Wireless charging type may include such as magnetic resonance type, magnetic induction type or electromagnetic wave type, and can also include being used for The adjunct circuit (for example, wire loop, resonance circuit or rectifier) of wireless charging.Battery gauge can measure battery 296 Voltage, electric current or temperature during residual capacity, and charging.Battery 296 may include such as rechargeable battery and/or solar energy Battery.

Indicator 297 can indicate the particular state (example of electronic equipment 201 or part of it (for example, processor 210) Such as, boot state, message status or charge state).Motor 298 can convert electrical signals to mechanical oscillation, and can produce Raw such as vibration or haptic effect.Although it is not shown, electronic equipment 201 may include the processor for supporting mobile TV (for example, GPU).For supporting that the processor of mobile TV can be according to such as digital multimedia broadcasting (DMB), digital video broadcasting (DVB) or MediaFLO^TMStandard handle media data.

Each above-mentioned hardware constituent element can be configured with one or more components, and the title of corresponding assembly element can Changed with the type based on electronic equipment.Electronic equipment may include at least one said elements.It can be from electronic equipment It omits some said elements or electronic equipment may further include add ons.Moreover, some hardware components can combine At an entity, function identical with the function of associated component can be executed before the combination.

Fig. 3 is the figure of program module according to an embodiment of the present disclosure.

Program module 310 may include controlling the OS of resource associated with electronic equipment 101 and/or being driven on OS Various application programs (for example, application program 147).OS can be such as Android^TM,iOS^TM,Windows^TM,Symbian^TM, Tizen^TMOr Bada^TM。

Program module 310 may include kernel 320, middleware 330, API 360 and/or application program 370.Program module 310 at least part can it is pre-loaded on an electronic device, or can be from electronic equipment 102 or 104 or server 106 download.

Kernel 320 may include such as system resource managers 321 and/or device driver 323.System resource managers 321 can execute the control, distribution or recovery of such as system resource.System resource managers 321 may include such as process pipe Manage unit, memory management unit or file system management unit.Device driver 323 may include such as display driver, Camera driver, BLUETOOTH driver, common storage driver, usb driver, keyboard driver, WiFi drivers, audio are driven Dynamic device or interprocess communication (IPC) driver.

Middleware 330 can provide the function of for example being usually required using 370, or can be by API360 to application 370 provide various functions so that the limited system resources in electronic equipment can be efficiently used using 370.Middleware 330 can To include run-time library 335, application manager 341, window manager 342, multimedia administration device 343, explorer 344, power supervisor 345, database manager 346, package manager 347, connection manager 348, notification manager 349, position Set at least one of manager 350, Graph Manager 351 and security manager 352.

Run-time library 335 may include, for example, the library module that compiler uses, to lead in executing application 370 Cross program language addition new function.Run-time library 335 can execute such as incoming/outgoing management, memory management or arithmetic work( The function of energy.

Application manager 341 can manage the Life Cycle of such as at least one of application program 370 application program Phase.Window manager 342 can manage the GUI resources used in screen.It is various that multimedia administration device 343 can grasp reproduction Format needed for media file, and the volume of media file can be executed by using the codec for being suitable for corresponding format Code or decoding.Explorer 344 can manage the resource using at least one of 370 applications, such as source code, memory Or memory space.

Power supervisor 345 is operated together with such as basic input/output (BIOS) to manage battery or power, And the power information for example operated needed for electronic equipment can be provided.Database manager 346 can generate, retrieves or change The database to be used by least one of application program 370 application program.Package manager 347 can be managed with APMB package The installation or update of the application program of form distribution.

Connection manager 348 can manage the wireless connection such as WiFi, bluetooth.Notification manager 349 can be with not The mode of interference user shows or notifies such as to reach message, appointment and the event close to notice etc.Location manager 350 can To manage the location information of electronic equipment.Graph Manager 351 can manage user to be supplied to graphical effect or with its phase Associated user interface.Security manager 352 can provide all safe work(needed for such as security of system or user authentication Energy.In the case where electronic equipment 101 includes telephony feature, middleware 330 may include that telephone supervisor is set with managing electronics Standby voice or video call function.

Middleware 330 may include middleware module, which forms the combination of the various functions of said modules. Middleware 330 can provide the module for being exclusively used in each operating system, in order to provide the function of differentiation.In addition, middleware 330 Some existing components or addition New Parent can dynamically be deleted.

API 360 is, for example, the set of API programing functions, and can in a different configuration be provided according to operating system. For example, Android^TMOr iOS^TMOne API set, Tizen can be provided for each platform^TMTwo can be provided for each platform Or more API set.

Application program 370 may include, for example, one or more application program, can execute such as family 371, dial Number device 372, SMS/MMS 373, instant message (IM) 374, browser 375, camera 376, alarm 377, contact person 378, voice Dialing 379, Email 380, calendar 381, media player 382, album 383, wrist-watch 384, health care is (for example, movement The measurement of amount or blood glucose), or the function of environmental information (for example, providing atmospheric pressure, humidity or temperature information) is provided.

May include the application for supporting the information exchange between electronic equipment 101 and electronic equipment 102 and 104 using 370 (hereinafter referred to as " information exchange application ").Information exchange application may include for example for specific information to be sent to external electrical The notice relay application of equipment, or include the device management application for managing external electronic device.

For example, notice relay application may include relaying any other application from electronic equipment (for example, SMS/MMS is answered With, e-mail applications, health care application or environmental information application) function of notification information that generates.In addition, notice relaying Using notification information can be received from such as external electronic device, and notification information can be provided a user.

Device management application can manage the electronic equipment 102 that (for example, installation, deletion or update) is communicated with electronic equipment Or 104 at least one function (for example, the unlatching/closing or adjustment of external electronic device itself (or its certain component) are aobvious Show the brightness (or resolution ratio) of device), the application program operated in external electronic device or the clothes provided by external electronic device It is engaged in (for example, telephone service or messenger service).

Using 370 may include according to the attribute of electronic equipment 102 or 104 specify application (for example, ambulatory medical device Health care application).May include the application program received from server 106 or electronic equipment 102 or 104 using 370.It answers May include the application program preloaded or the third party application that can be downloaded from server with 370.Program module 310 The title of component can change according to the type of operating system.

At least part of program module 310 can by software, firmware, hardware or two or more combination Lai real It is existing.At least part of program module 310 can be realized (for example, execution) by such as processor 210.Program module 310 is extremely A few part may include module, program, routine, one group of instruction or the process for example for executing one or more functions.

It can be by the instruction that is stored in the form of programming module in non-transitory computer-readable storage media come real Existing at least some equipment (for example, its module or function) or method (for example, operation).When instruction is executed by processor 120, one A or multiple processors can execute function corresponding with instructing.Non-transitory computer readable recording medium can for example be deposited Reservoir 130.

Non-transitory computer readable recording medium may include hard disk, floppy disk, magnetic medium (for example, tape), optical medium (for example, CD ROM (CD-ROM) and DVD), magneto-optical media (for example, CD), hardware device (for example, ROM, RAM, flash memory) Deng.In addition, program instruction may include can by using the higher-level language code that interpreter executes in a computer and by The machine code that compiler generates.Aforementioned hardware equipment can be configured as to be operated as one or more software modules, so as to The operation of the disclosure is executed, vice versa.

Module or programming module may include at least one said elements, exclude some elements, or further include that other are attached Canadian dollar part.The operation executed by module, programming module or other elements can be held with sequence, parallel, repetition or heuristics manner Row.It either can be omitted some operations furthermore, it is possible to sequentially execute some operations according to another or other behaviour can be added Make.Embodiment disclosed herein is provided to be used for the purpose of being easily described the technical detail of the disclosure and help to understand this public affairs It opens, and is not intended to be limited to the scope of the present disclosure.It should therefore be understood that all modifications of the technical concept based on the disclosure and The form of variation or modifications and variations is both fallen in the scope of the present disclosure.

Equipment described herein may include using one or more in the various processors such as AP, CP, GPU, CPU A all information and communication equipment, multimedia equipment, wearable device and its application apparatus.

Hereinafter, method and apparatus described here will be described with reference to the drawings.However, due to embodiment described herein Not by limitation described below or restriction, it should be noted that the embodiment that will be described below can be applied or be changed. Hereinafter, the disclosure is described into hardware based method.However, the disclosure includes using the technology of both hardware and softwares, Therefore, the disclosure can be not excluded for the angle of software.

Figure 4 and 5 are the figures of the wearable set of wireless devices of ear according to an embodiment of the present disclosure 4.Fig. 6 is according to the disclosure Embodiment the wearable set of wireless devices of ear 4 diagram.

With reference to fig. 4 to fig. 6, the wearable set of wireless devices of ear 4 may include it is wearable on the opposing ear of user the One electronic equipment (or first earphone) 5 and the second electronic equipment (or second earphone) 6.First electronic equipment 5 and/or the second electronics Equipment 6 may include the whole of the electronic equipment 101 of Fig. 1, the first external electronic device 102 or the second external electronic device 104 Or some components.

First electronic equipment 5 includes shell H, tip 54, lid 55 and printed circuit-board assembly (PCBA) 56.

Shell H includes first shell 51 and second shell 52.First shell 51 and second shell 52 form the first electronics and set Standby 5 outside.First shell 51 and second shell 52 can be coupled to each other to form internal installation space.PCBA 56 can be arranged In internal installation space.

Shell H further includes window 53.When first shell 51 and second shell 52 are coupled to each other, through-hole can be formed.It is logical Hole can interconnect internal installation space with external.Window 53 can be couple to shell H and be arranged by 51 He of first shell In the through-hole that second shell 52 is formed.

Second shell 52 may include that extension 521, extension 521 extend to the outside of shell H.Extension 521 may include By the channel of internal installation space and external interconnection.Extension 521 can be used for being inserted into the duct of user.The sound generated from loud speaker Sound can be sent out by the channel of extension 521.

Tip 54 may be coupled to one end of the extension 521 of second shell 52.Tip 54 can have substantially cylinder The shape of shape.The end of the extension 521 of second shell 52 can be assembled to the hollow space at tip 54.Tip 54 can be bullet Property and can help and the duct of user be in close contact.

Shell H may include the through-hole for being used to support microphone.Sound can introduce microphone by through-hole.

Lid 55 may be coupled to shell.Hand can have substantially annular shape.Lid 55 may include through-hole 551, and And 551 window of exposure 53 of through-hole can be passed through.

PCBA 56 may include PCB and be electrically connected to multiple electronic building bricks of PCB.

PCBA 56 may include the telecommunication circuit for supporting various types of communications.

Telecommunication circuit can be sent by least one antenna radiator/receive radiofrequency signal.For example, telecommunication circuit can be with Including short range communication circuit, and can by using at least one antenna radiator come support with external equipment (for example, WiFi, bluetooth, NFC or GNSS) short range communication.

Telecommunication circuit can support wire communication (for example, USB).

PCBA 56 may include the one or more antenna radiators for supporting various types communication.

One or more antenna radiators can be provided in various types of metal components in the first electronic equipment 5. For example, one or more antenna radiators can be arranged in the shell H of the first electronic equipment 5, or shell H mono- can be formed The part in face.For example, metallic plate, coil form metal pattern and endless metal structure may be used in one or more antenna radiators The form of part.

Shell H may include one or more antenna radiators, be formed simultaneously the outside of the first electronic equipment 5.In shell H In the case of being formed by metal, one or more antenna radiators may include the part metals region of shell H or entire metal Region.Alternatively, at least part of at least one antenna radiator and shell H can be exposed.

One or more antenna radiators, which may be mounted at, to be equipped on the PCB of telecommunication circuit, and one or more days Beta radiation device can support short range communication, can support cellular communication, and may support wireless charging.For example, one or more Antenna radiator can be used for wireless power being sent to external equipment, or be used for from external equipment wireless receiving electric power.

PCBA 56 may include memory, software relative program (one group of life that storage can be executed by control circuit It enables).

The data (for example, audio data) that memory can be received by various types of communication storages.Alternatively, memory (for example, buffer) can store streaming audio data.

PCBA 56 may include various types of output equipments.For example, PCBA 56 may include converting electrical signals to The loud speaker of voice signal.Loud speaker can receive the audio signal obtained by reproducing audio data, to generate sound.

PCBA 56 may include the display of the part exposure by shell H.

PCBA 56 may include luminescence unit 561 (for example, light emitting diode (LED) is to support various notices.From shine The light that unit 561 generates can be emitted by window 53.For example, when being carrying out charging luminescence unit 561 can send out it is red Color, and when charging is complete, luminescence unit 561 can send out green.Alternatively, being set in the first electronic equipment 5 and the second electronics In the state of being connected to each other in standby 6 communication, luminescence unit 561 can be controlled and send out particular color, alternatively, in the first electronic equipment 5 and external electronic device (for example, smart phone or network server) communication in be connected to each other in the state of, can control luminous Unit 561 sends out specific color.Alternatively, the playback mode depending on audio data is (for example, reproducing or temporarily stopping to reproduce Period), controllable luminescence unit 561 sends out particular color.Alternatively, it is determined by user's input of input equipment generation, it can To control luminescence unit 561 to generate particular color.In addition to the foregoing, luminescence unit can be controlled according to various events 561。

PCBA 56 may include supporting input circuit input by user.For example, PCBA 56 may include by voice signal Be converted to the microphone of electric signal.Alternatively, PCBA 56 may include various forms of load buttons.Alternatively, PCBA 56 can be wrapped Include the touch tablet of touch tablet or touch type or type of hovering.

PCBA 56 may include sensor circuit, which is configured as measuring physical quantity or sensing first The mode of operation of electronic equipment 5.For example, sensor circuit may include such as acceleration transducer, and gyro sensor, earth magnetism Field sensor, Magnetic Sensor, proximity sensor, gesture sensor, handle sensor or biosensor, or it is associated with Fig. 2 One of other sensor as aforementioned.

Whether sensor circuit can export with user close to 5 relevant information of the first electronic equipment or signal.Sensor Circuit can be exported with whether the first electronic equipment 5 is worn on relevant information or signal.

Sensor circuit can export the relevant information in position or signal with the first electronic equipment 5.For example, sensor is electric Road can be exported with whether the first electronic equipment 5 is coupled to the relevant information of specific electronic equipment set or signal.For example, sensor is electric Road can be detected and the relevant information of the distance between the first electronic equipment 5 and the second electronic equipment 6.

PCBA 56 may include the battery for providing the electric power for driving the first electronic equipment 5.

PCBA 56 may include charging circuit, can for example be charged to battery by receiving electric power from external source.

PCBA 56 may include the external interface for being electrically connected with external electronic device.For example, PCBA 56 can be wrapped Include one or more contacts.One or more contacts can be arranged on a face of shell H.When the first electronic equipment 5 and outside When portion's electronic equipment is connected to each other, one or more contacts of the first electronic equipment 5 may be electrically connected to external electronic device Contact.

PCBA 56 may include control circuit (for example, one of aforementioned processor), be configured as controlling various signals Stream, and control such as information and collect and export.Control circuit can execute various software programs stored in memory (life Enable collection), to be performed various functions for the first electronic equipment 5.Control circuit can support various types together with telecommunication circuit Communication.

Control circuit can be inputted according to the user generated from input equipment to execute function.Alternatively, control circuit can be with Function is executed according to the input received from external source.

Control circuit can be exported by loud speaker and be stored in memory (for example, nonvolatile memory or volatibility are deposited Reservoir) in audio data.

Control circuit can be that the first electronic equipment 5 provides support with from external electronic device by using telecommunication circuit (for example, server, smart phone, PC, PDA or access point) receives audio data.Control circuit can make to set from external electrical The standby audio data storage received is in memory.Control circuit can support the first electronic equipment 5 so that be stored in memory In audio data exported by loud speaker.

Control circuit can be configured as is connected to the second electricity by using various types of communications by the first electronic equipment 5 Sub- equipment 6 and from the second electronic equipment 6 receive audio data.Control circuit can make the sound received from the second electronic equipment 6 Frequency according to storage in memory.Control circuit can be configured as to be stored in by the loud speaker output of the first electronic equipment 5 Audio data in memory.

Second electronic equipment 6 can have the structure with the symmetrical configuration of the first electronic equipment 5.Second electronic equipment 6 can To include first shell 61, second shell 62, window 63, tip 64, lid 65 and PCBA 66.Because the of the second electronic equipment 6 One shell 61, second shell 62, window 63, tip 64, lid 65 and PCBA 66 can be with the first shells of the first electronic equipment 5 51, second shell 52, window 53, tip 54, lid 55 and PCBA 56 are similar or identical, so by the descriptions thereof are omitted.

Fig. 7 is the figure of electronic equipment 700 according to an embodiment of the present disclosure.Electronic equipment 700 may include the electronics of Fig. 1 All or some component of equipment 101 or the second electronic equipment 104.Alternatively, electronic equipment 700 may include the first of Fig. 4 to 6 All or some component of electronic equipment 5 or the second electronic equipment 6.

With reference to Fig. 7, electronic equipment 700 includes antenna radiator 711, telecommunication circuit 710, input equipment 720, sensor 730, audio frequency processing circuit 740, memory 750, electric power management circuit 760, battery 770 or processor 780.

Antenna radiator 711 can support various types of communications.Antenna radiator 711 can support short range communication.It is short Cheng Tongxin may include at least one of such as WiFi, bluetooth, NFC and GNSS.

Antenna radiator 711 can support cellular communication.Cellular communication can use such as LTE, LTE-A, CDMA, At least one of WCDMA, UMTS, WiBro and GSM.

Antenna radiator 711 may include the radiator (for example, Wireless charging coil) for being configured as supporting wireless charging. For example, antenna radiator 711 can be used for sending wireless power to external equipment, or can be used for wirelessly connecing from external equipment Receive electric power.

Antenna radiator 711 can be provided in various types of metal components in electronic equipment 700.For example, antenna Radiator 711 can be arranged formed electronic equipment 700 outside shell in, or can be formed shell a face one Part.

Shell may include antenna radiator 711, be formed simultaneously the outside of electronic equipment 700.It is formed by metal in shell In the case of, antenna radiator 711 may include the part metals region of shell or entire metallic region.Alternatively, can expose At least part of antenna radiator 711 and shell.

Antenna radiator 711 may be mounted on the PCB for being equipped with telecommunication circuit 710.

Antenna radiator 711, which can be configured as, can be selected from unipole antenna, dipole antenna, inverse-F antenna (IFA), plane At least one type of inverse-F antenna (PIFA), loop aerial and slot antenna.

Telecommunication circuit 710 can be supported and the wireless communication of external equipment (for example, smart phone).

Telecommunication circuit 710 can support various types of communications by using antenna radiator 711.Telecommunication circuit 710 can With including all RF components between antenna radiator 711 and processor 780.For example, when receiving wireless signal, telecommunication circuit 710 can receive wireless signal from antenna radiator 711, can the wireless signal of reception be converted to baseband signal, and can The baseband signal of conversion is sent to processor 780.The baseband signal that processor 780 can handle reception is set with controlling electronics Standby 700 human/machine interface corresponds to the baseband signal received.Alternatively, in the transmission of wireless signal, processor 780 can be with Baseband signal is generated so that baseband signal is output to telecommunication circuit 710.Telecommunication circuit 710 can receive base band from processor 780 Signal can convert the baseband signal of reception as wireless signal, and can transmit wireless signal by antenna radiator 711.

Telecommunication circuit 710 can support single input and multi-output (SIMO), multi input list defeated by using antenna radiator 711 Go out at least one of (MISO), diversity and multiple-input and multiple-output (MIMO) communication system.

Telecommunication circuit 710 can support the wired or wireless communication with external equipment.Telecommunication circuit 710 may include outside Interface.For example, telecommunication circuit 710 may include one or more contacts.Electronic equipment 700 may be mounted at another electronic equipment Installation section on, and one or more contacts of electronic equipment 700 may be electrically connected to and be arranged in another electronic equipment One or more of installation section contact.

Telecommunication circuit 710 can be supported from external electronic device (for example, server, smart phone, PC, PDA or access Point) receive audio data.Alternatively, telecommunication circuit 710 can be supported audio data being transferred to external equipment.

Input equipment 720 can be configured as the various input signal t generated for operating electronic equipment 700.Input is set Standby 720 may include touch pads, touch tablet, button etc..Touch tablet can identify for example capacitive, pressure sensitive, infrared type and surpass The touch input of at least one of sound type.When providing Capacitive touch pad, physical contact or close can be identified.Touch tablet It may also include tactile layer.Touch tablet including tactile layer can provide a user haptic response.Button may include such as physics Button, optical key or keypad.

Input equipment 720 can be generated to be inputted with the ON of electronic equipment 700 or the relevant user of OFF state.

Input equipment 720 can be generated to be connect with the communication (for example, short range communication) with electronic equipment 700 and external equipment Relevant user's input.

Input equipment 720 can generate user's input associated with audio data.For example, user's input can be with audio The reproduction of data starts, reproduces pause, reproduction stops or reproduction speed control is associated.Alternatively, user input can with for example Volume control or sound are eliminated associated.

Sensor 730 can measure the mode of operation of physical quantity or sensing electronic equipment 700.Sensor 730 can will be surveyed Amount or the information of sensing are converted to electric signal.Sensor 730 may include such as acceleration transducer, gyro sensor, magnetic field Sensor, Magnetic Sensor, proximity sensor, gesture sensor, handle sensor or other of biosensor or Fig. 2 are above-mentioned One of sensor.

Sensor 730, which can obtain, will be used to determine the information whether user is located near electronic equipment 700.For example, passing Sensor 730 can export the information or signal whether instruction electronic equipment 700 is worn on the ear of user.

Sensor 730 can export the information or signal whether instruction electronic equipment 700 is connected to external equipment.

Audio frequency processing circuit 740 can support audio data collection function.Audio frequency processing circuit 740 can reproduce collected Audio data.Audio frequency processing circuit 740 may include audio decoder and digital-to-analogue (D/A) converter.Audio decoder can be with The audio data being stored in memory 750 is converted into digital audio and video signals.D/A converter can will be via audio decoder The digital audio and video signals of device conversion are converted to analog audio signal.Alternatively, audio decoder can will be from by telecommunication circuit 710 External equipment (for example, server, smart phone, PC, PDA or access point) is received and stored on the audio number in memory 750 According to being converted to digital audio and video signals.Loud speaker 741 can export the analog audio signal converted by D/A converter.

The analoging sound signal transmitted by microphone 742 can be converted to digital audio signal by A/D converter.

Audio frequency processing circuit 740 can be reproduced in the various audio datas being arranged in the operational motion of electronic equipment 700.Example Such as, when sensing user close to electronic equipment 700, or when sensing user and not being positioned adjacent to electronic equipment 700 In the case of, audio frequency processing circuit 740 can be configured as reproduction and corresponding effect or the guiding relevant audio data of sound.Or Person, when sensing electronic equipment 700 and being coupled to external equipment (for example, charging equipment), or when sensing electronic equipment 700 When being detached with external equipment, audio frequency processing circuit 740 can be configured and reappeared and corresponding effect or the guiding relevant audio number of sound According to.Effect sound can be omitted according to the setting of user or the intention of designer or guide the output of sound.

Audio frequency processing circuit 740 may include in processor 780.

Memory 750 stores data, application program and algorithm, corresponds to the various bases needed for operation electronic equipment 700 This operating system or various user functions.Memory 750 may include at least one high-speed RAM (for example, disk storage equipment) And/or nonvolatile memory or at least one light storage device and/or flash memory (for example, NAND or NOR).

Memory 750 may include nonvolatile memory, and storage is from external electronic device (for example, server, intelligence Phone, PC, PDA or access point) receive the first audio data (hereinafter, " non-volatile audio data ").Alternatively, memory 750 may include volatile memory, store second audio data (hereinafter, " the volatibility audio received from external equipment Data ").

Electric power management circuit 760 (for example, PMIC) can effectively manage and optimize the battery 770 in electronic equipment 700 Electricity usage.For example, in order to be suitable for load to be processed, processor 780 can be according to bearing to electric power management circuit 760 It carries to send signal.Electric power management circuit 760 can adjust the power supply of processor 780 to be supplied to.

Electric power management circuit 760 may include battery charger.For example, when electronic equipment 700 is coupled to external equipment When, electric power management circuit 760 receives electric power to charge to battery 770 from external equipment.

Electric power management circuit 760 may include wireless charging circuit.Electric power management circuit 760 can be configured as optimization electricity Electric power distribution between pond charging circuit and the power-supply device of electronic equipment 700.

Electronic equipment 700 can also include display equipment.It is set for example, display equipment can be configured as offer operation electronics Various screen interfaces needed for standby 700.Display equipment can provide the relevant user interface of reproduction with audio data.Display is set The standby relevant user interface of function that can be provided and receive audio data from external equipment.Alternatively, display equipment can provide With the relevant user interface of function for receiving audio data from external equipment.Alternatively, display equipment can be provided and be set with from outside It is standby to receive the relevant user interface of function of audio data, and the audio data of reception is sent to another external equipment.

Display equipment may be provided as touch screen, and wherein display panel and touch panel is superposed on one another.For example, can incite somebody to action At least one screen interface can be output to display by image corresponding with various screens or text output to display panel Panel.Touch panel, which can be arranged, to be touched effective coverage and touches non-active area, is touched effective coverage and is configured as according to defeated Go out the screen characteristics to display panel to collect touch event, touches non-active area and be configured as ignoring collected touch thing Part does not execute touch event collection.Touch panel can transmit the touch event generated in touching effective coverage everywhere Manage device 780.

Processor 780 can be based at least partially on the user incuded from input equipment 720 and input to support various operations. For example, processor 780 can be inputted according to user opens or closes electronic equipment 700.For example, processor 780 can according to Family input is connected to another electronic equipment communicated with electronic equipment 700.It is controlled for example, processor 780 can be inputted according to user The reproduction of audio data processed.For example, processor 780 can start according to the reproduction of user's input control audio data, reproduce temporarily Stop, reproduce stopping, reproduction speed control or sound elimination.

Processor 780 can be based at least partially on the information that is obtained from sensor 730 to support various operations.

Processor 780 can receive the status information of another electronic equipment from telecommunication circuit 710, and can be at least partly Various operations are supported based on the status information of another electronic equipment in ground.

Electronic equipment 700 can provide sound identifying function, which receives according to using microphone 742 Analoging sound signal generates voice command.Voice command can be with the reception, transmission or reproduction for supporting such as audio data Input it is related.

Processor 780 can be configured as the various signal streams of control and control information and collects and export, various to support The reproduction of audio data.Processor 780 may include component shown in fig. 8 (for example, input collector unit, use pattern are true Order member and reproduction supporter).Its explanation is described below.

Electronic equipment 700 can also include the various modules according to the type of offer.For example, electronic equipment 700 can be with Including component, such as it is configured as communicating the Internet communication module to execute internet function with Internet and is configured To execute the numeral broadcast module received with the function of reproducing digital broadcasting.Although being changed according to the convergence trend of digital device These components so that all components can not possibly be enumerated, but the group of said modules rank can be also comprised in the electronic device Part.About electronic equipment 700, specific components can be omitted from said modules, or can be according to the electronic equipment provided 700 type replaces specific components by other assemblies.

Fig. 8 is the figure of processor 780 according to an embodiment of the present disclosure.

With reference to figure 8, processor 780 includes that list is supported in input collector unit 801, use pattern determination unit 803 and reproduction Member 805.

It inputs collector unit 801 and collects the input from sensor 730, input equipment 720 or telecommunication circuit 710, and will The input of collection is transmitted to use pattern determination unit 803.

It inputs collector unit 801 and collects one or more inputs from input equipment 720.For example, input collector unit 801 may collect in the gesture generated on the touch tablet of electronic equipment 700.Alternatively, input collector unit 801 can collect use The input that the button of electronic equipment 700 is made.Alternatively, input collector unit 801 can collect voice input.

Input collector unit 801 can be collected to be set with the switching of the reproducting method of the audio data from input equipment 720 Set relevant input.Can the reproducting method of audio data be set by manual switching or automatic switchover.For example, making when existing When obtaining input of the audio reproducing method by manual switching, input collector unit 801 passes through input equipment 720 and collects and select audio The relevant user's input of reproducting method.Alternatively, when there is input so that audio reproducing method automatically switches, collector unit is inputted 801 collect the input from multiple components (for example, sensor 730), to collect and electronic equipment 700 and/or external equipment Relevant status information.

Information can be collected from sensor 730 by inputting collector unit 801.For example, input collector unit 801 can be from sensing Device 730 obtains the location information of electronic equipment 700.Location information can with electronic equipment 700 whether be located at be located at user near, Whether whether wearable electronic device 700, and/or electronic equipment 700 are mounted on phase on the external equipment of such as charging equipment to user It closes or location information may include the distance between electronic equipment 700 and external electronic device.

The location information of external electronic device can be collected by telecommunication circuit 710 by inputting collecting device 801.For example, position It is related or that whether confidence breath can be located near user to external electronic device, whether electronic equipment 700 is worn by the user Whether one external electronic device is mounted on related on the second external equipment (such as charging equipment).

Input collecting device 801 can be collected and the relevant information of the surplus of the battery of electronic equipment 700 770.Alternatively, Inputting collecting device 801 can be by the relevant position of surplus of telecommunication circuit 710 collection and the battery of external electronic device Information.

It is to operate in battery saving mode or in a sleep mode that input collecting device 801, which can be collected with electronic equipment 700, Relevant information.Alternatively, it is in power saving that input collecting device 801, which can be collected by telecommunication circuit 710 with external electronic device, Relevant information is operated under pattern or sleep pattern.

The wireless signal strength of external electronic device can be collected by telecommunication circuit 710 by inputting collecting device 801.

Use pattern determination unit 803 determines use pattern based on the various inputs obtained from input collector unit 801. Use pattern may include such as double mode or non-double mode.Double mode also refers to electronic equipment 700 and external electrical is set The standby state worn on the opposing ear of user or do not worn.

When confirming that user is positioned in relatively close the position of electronic equipment 700 and external electronic device, use pattern determines Unit 803 can select double mode.Alternatively, when confirming at least one of electronic equipment 700 and external electronic device without phase When to close to the position of user, use pattern determination unit 803 can select non-double mode.

When confirming that electronic equipment 700 and external electronic device are worn on the body of user, use pattern determination unit 803 can select double mode.Alternatively, when confirmation at least one of electronic equipment 700 and external electronic device are not worn on When on the body of user, use pattern determination unit 803 can select non-double mode.

When the distance between electronic equipment 700 and external electronic device are no more than critical distance, use pattern determines single Member 803 can select double mode.For example, when electronic equipment 700 and external electronic device are worn on the opposing ear of user, The distance between two electronic equipments can be in critical distance.Alternatively, between electronic equipment 700 and external electronic device When distance is more than critical distance, use pattern determination unit 803 can select non-double mode.

When not finding the external electronic device that may be connected to the electronic equipment 700 in communication, use pattern determination unit 803 can select non-double mode.For example, when the power supply of external electronic device is closed, electronic equipment 700 may be difficult To find external electronic device.Alternatively, the power supply in external electronic device is in open state but external electronic device is located at hardly possible In the case of distance to establish communication connection, electronic equipment 700 is likely difficult to find external electronic device.

It can set external electronic device to not allowing the communication connection with electronic equipment 700, and use pattern is true Order member 803 can select non-double mode.Alternatively, electronic equipment 700 can be set as not allowing and external electronic device Communication connection, and use pattern determination unit 803 can select non-double mode.

It is set mounted on the second external electrical when sensing at least one of electronic equipment 700 and the first external electronic device When on standby (for example, power supply), use pattern determination unit 803 can select non-double mode.

Reproducing supporter 805 can be based on the type of audio data and the determination from use pattern determination unit 803 As a result the reproducting method of audio data is selected.Reproducting method may include such as stereophonics or mono reproduction.

When audio data is monaural audio data, because binaural method cannot be utilized to reproduce audio data, Use pattern determination unit 803 can select mono reproduction method but regardless of use pattern (non-double mode or double mode).

In non-double mode, the sound being stored in memory 750 can be reproduced with monophonic method by reproducing supporter 805 Frequency evidence.For example, even if audio data is stereo audio data, in non-double mode, reproducing supporter 805 can also be right Entire stereo audio data is decoded to obtain audio signal, and can pass through 741 exports audio signal of loud speaker.

Reproducing supporter 805 can will be from external electronic device (for example, smart phone, PC, PDA, server or access Point) receive audio data (or streaming audio data) be stored in memory 750.Under non-double mode, supporter is reproduced 805 can use monophonic method to reproduce the audio data received from external electronic device.For example, even if being connect from external electronic device The audio data of receipts is stereo audio data, and in non-double mode, reproducing supporter 805 can also be to entire stereo sound Frequency evidence is decoded to obtain audio signal, and can pass through 741 exports audio signal of loud speaker.

In the case where the audio data in being stored in memory 750 is monaural audio data, because solid cannot be used Method for acoustic reproduces audio data, so in double mode, monophonic method reverberation frequency can be used by reproducing supporter 805 According to.For example, in double mode, reproducing supporter 805 can be with decoding mono audio data to obtain audio signal, and can To pass through 741 exports audio signal of loud speaker.

In the case where the audio data in being stored in memory 750 is stereo audio data, in double mode, reproduce Supporter 805 can reproduce stereo audio data with binaural method.For example, in double mode, supporter 805 is reproduced Can be with a part for decoding stereoscopic sound audio data to obtain audio signal, and audio letter can be exported by loud speaker 741 Number.

In double mode, reproducing supporter 805 can will be relevant same with the audio data that is stored in memory 750 Step signal is sent to external electronic device.Based on the relevant response of synchronizing signal that is received from external electronic device, reproduce branch Holding unit 805 can use monophonic method or binaural method to reproduce audio data.It can periodically carry out under double mode again Existing supporter 805 sends the operation of synchronizing signal to external electronic device and is sent out from external electronic device to electronic equipment 700 Send the operation of the response of response synchronizing signal.For example, electronic equipment 700 can be sent to external electronic device is used for usage time The request message of stamp, and response message can be received from external electronic device in response to this.

In the case where the identical audio data corresponding to synchronizing signal is stored in external electronic device, external electrical is set It is standby will to be sent to electronic equipment 700 with the relevant synchronous enabled response of synchronizing signal.In response to from electronic equipment 700 Synchronizing signal, external electronic device can be according to type (the monaural audio data or stereo audio data) profits of audio data Identical audio data is reproduced with monophonic method or binaural method.

It is external in the case where electronic equipment 700 and external electronic device are worn on the opposite ear of user (double mode) Electronic equipment sends synchronous enabled response to electronic equipment 700, and electronic equipment 700 is received from the same of external electronic device The enabled response of step, electronic equipment 700 and external electronic device can independently reproduce identical monophonic using monophonic method Audio data.

It is external in the case where electronic equipment 700 and external electronic device are worn on the opposite ear of user (double mode) Electronic equipment sends synchronous enabled response to electronic equipment 700, and electronic equipment 700 is received from the same of external electronic device The enabled response of step;Electronic equipment 700 and external electronic device can independently be reproduced identical stereo using binaural method Audio data.For example, electronic equipment 700 can with the first part of decoding stereoscopic sound audio data to obtain the first audio signal, And the first audio signal can be exported by loud speaker 741.External electronic device can decode identical stereo audio data Second part to obtain the second audio signal, and loud speaker 741 can be passed through and export the second audio signal.With electronic equipment Relevant first sound of first part of 700 stereo audio datas reproduced can be introduced into one of ear of user, and It can be used being introduced with the relevant second sound of the second part of the identical stereo audio data reproduced by external electronic device In another ear at family, this can provide the chance of experience stereo sound to the user.

In the case where being not stored in another electronic equipment corresponding to the audio data of synchronizing signal, external electronic device It can will be sent to electronic equipment 700 with the relevant synchronization disabled response of synchronizing signal.It is received together from external electronic device In the case of step disabling response, audio data can be reproduced by reproducing supporter 805.For example, in being stored in memory 750 In the case that audio data is monaural audio data, reproducing supporter 805 can be with decoding mono audio data to obtain Audio signal, and 741 exports audio signal of loud speaker (mono reproduction) can be passed through.Alternatively, being stored in memory 750 In audio data be stereo audio data in the case of, reproduce supporter 805 can be with decoding stereoscopic sound audio data A part can pass through 741 exports audio signal of loud speaker (stereophonics) to obtain audio signal.

In the case of receiving synchronization disabled response from external electronic device in double mode, reproducing supporter 805 can Audio data is sent to external electronic device (for example, stream transmission).For example, electronic equipment 700 may be used as main equipment, External electronic device may be used as from equipment.External electronic device can reproduce the audio data received from electronic equipment 700.Example Such as, in the case where the audio data received from electronic equipment 700 is monaural audio data, external electronic device can decode Monaural audio data can pass through loud speaker exports audio signal (mono reproduction) to obtain audio signal.For example, In the case that the audio data received from electronic equipment 700 is stereo audio data, external electronic device can be with decoding stereoscopic A part for sound audio data can pass through loud speaker exports audio signal (stereophonics) to obtain audio signal. For example, when electronic equipment 700 and external electronic device are mounted on the opposing ear of user (double mode), electronic equipment 700 The first part for the stereo audio data being stored in memory 750 can be decoded to obtain the first audio signal.In addition, outer Portion's electronic equipment can decode the second part of the stereo audio data received from electronic equipment 700 to obtain the second audio letter Number, and the second audio signal can be exported by loud speaker.The first audio signal and external electrical that electronic equipment 700 exports Second audio signal of equipment output can provide the stereosonic chance of experience to the user.

When receiving synchronization disabled response from external electronic device in dual-mode, reproducing supporter 805 can be right The audio data being stored in memory 750 is decoded to obtain audio signal, and can export sound by loud speaker 741 Frequency signal.In addition, external electronic device can be sent to by audio signal by reproducing supporter 805.External electronic device can be with The audio signal received from electronic equipment 700 is exported by its loud speaker, without decoding corresponding audio data.

For example, the monaural audio data being stored in memory 750 can be decoded to obtain sound by reproducing supporter 805 Frequency signal.Can be by loud speaker exports audio signal in addition, reproducing supporter 805, and audio signal can be sent To external electronic device.When electronic equipment 700 and external electronic device are mounted on the opposite ear of user (double mode), electronics Equipment 700 and external electronic device can export identical monaural audio data by its loud speaker respectively.

It can be to being stored in the first part of the stereo audio data in memory 750 for example, reproducing supporter 805 It is decoded to obtain the first audio signal, and the second part of stereo audio data can be decoded to obtain Two audio signals.The first audio signal can be exported by loud speaker 741 by reproducing supporter 805.Reproducing supporter 805 can The second audio signal is sent to external electronic device.When electronic equipment 700 and external electronic device are mounted on the phase of user When on ear (double mode), electronic equipment 700 can export the first audio signal, and external electronic device by its loud speaker The second audio signal can be exported by its loud speaker.This can provide the stereosonic chance of experience to the user.

In double mode, reproduce supporter 805 can from audio presenting device (for example, server, portable phone, PC, PDA or access point) receive audio data (stream transmission).In double mode, reproducing supporter 805 can will be from audio The audio data that equipment receives is provided to be stored in memory 750.In double mode, reproduce supporter 805 can reproduce from The audio data that audio presenting device receives.For example, being monophonic audio number in the audio data received from audio presenting device In the case of, in double mode, reproduce supporter 805 can with decoding mono audio data to obtain audio signal, and And 741 exports audio signal of loud speaker (mono reproduction) can be passed through.Alternatively, in the audio number received from audio presenting device In the case of being stereo audio data, in double mode, reproducing supporter 805 can be with decoding stereoscopic sound audio data A part can pass through 741 exports audio signal of loud speaker (stereophonics) to obtain audio signal.

In double mode, the audio data received from audio presenting device can be sent to outer by reproduction supporter 805 Portion's electronic equipment (stream transmission).For example, electronic equipment 700 may be used as main equipment, external electronic device may be used as from setting It is standby.External electronic device can reproduce the audio data received from electronic equipment 700.For example, receiving from electronic equipment 700 In the case that audio data is monaural audio data, external electronic device can be with decoding mono audio data to obtain audio Signal, and loud speaker exports audio signal (mono reproduction) can be passed through.For example, in the audio received from electronic equipment 700 In the case that data are stereo audio data, external electronic device can be with a part for decoding stereoscopic sound audio data to obtain Audio signal, and loud speaker exports audio signal (stereophonics) can be passed through.For example, working as electronic equipment 700 and outside Electronic equipment is mounted on when on the opposite ear of user (double mode), and electronic equipment 700 can be exported by loud speaker 741 from audio A part for the stereo audio data received is provided, and external electronic device can be exported from electronics by its loud speaker and be set The standby 700 a part of audio datas received.This can provide the stereosonic chance of experience to the user.

In double mode, the audio data received from audio presenting device can be decoded by reproducing supporter 805 To obtain audio signal, and 741 exports audio signal of loud speaker can be passed through.In addition, reproducing supporter 805 can send Audio signal is to external electronic device.External electronic device can export the audio received from electronic equipment 700 by loud speaker Signal, without decoding corresponding audio data.

For example, the monaural audio data received from audio presenting device can be decoded to obtain by reproducing supporter 805 Audio signal.Can be by loud speaker exports audio signal in addition, reproducing supporter 805, and audio signal can be sent out It is sent to external electronic device.When electronic equipment 700 and external electronic device are mounted on the opposite ear of user (double mode), electricity Sub- equipment 700 and external electronic device can export identical monophonic audio signal by its loud speaker respectively.

For example, the first of the stereo audio data received from audio presenting device can be decoded by reproducing supporter 805 It can be believed with obtaining the second audio with the second part of decoding stereoscopic sound audio data with obtaining the first audio signal part Number.The first audio signal can be exported by loud speaker 741 by reproducing supporter 805.Reproducing supporter 805 can be by second Audio signal is sent to external electronic device.When electronic equipment 700 and external electronic device are mounted on the opposite ear of user (double mode), electronic equipment 700 can export the first audio signal by its loud speaker, and external electronic device can pass through Its loud speaker exports the second audio signal.This can provide the stereosonic chance of experience to the user.

Electronic equipment may include:Shell, including it is configured as being removably mounted on the portion on one of ear of user Point;Including radio communication circuit in the housing;Including battery in the housing;Including in the housing and being arranged to work as shell A part for body is connected to the loud speaker of a period of time user oriented ear drum membrane of the ear of user;With including in the housing at least One sensor.Electronic equipment may include processor, which includes in the housing and being electrically connected to wireless communication electricity Road, battery, loud speaker and at least one sensor.Electronic equipment may include include in the housing and being electrically connected to processor Memory, the memory be configured as storage audio data.Memory can be with store instruction, which makes processor:Pass through It asks to connect from external equipment using telecommunication circuit, which is configured as being removably mounted on another ear of user On piece;Based on whether receiving external equipment to the response of connection request and/or by forming the connection asked from external equipment At least part of at least one signal received, determination will be from the parts that audio data stored in memory exports;And Pass through the determining part of loud speaker output.

At least one signal received from external equipment may include the status information of external equipment.Instruction can make processing Device determines the part to be exported in audio data stored in memory based on the status information of the external equipment received.

The instruction can make processor:In the case where the status information of the external equipment received includes first state, A part of audio data is only exported by loud speaker;The case where the status information of the external equipment received includes the second state Under, audio data is exported by loud speaker completely.

Described instruction can make processor:The case where the status information of the external equipment received includes first state Under, external equipment will be sent to the relevant synchronizing signal of audio data;It receives related to the synchronizing signal from external equipment Response;And in response to the response received, which is exported by loud speaker.Believe in the state of the external equipment received In the case that breath includes the second state, instruction can make processor that will not be sent to outside with the relevant synchronizing signal of audio data Equipment.

The instruction can make processor:The status information of electronic equipment is obtained using at least one sensor;By using The status information of the electronic equipment of acquisition is sent to external equipment by telecommunication circuit.

In the case where external equipment is not responding to connection request, instruction can make processor pass through loud speaker to export sound completely Frequency evidence.

First state may include the state that external equipment is positioned close to user, the second state may include external equipment not Close to the state of user's positioning.

Electronic equipment may include:Shell, including it is configured as being removably mounted on the portion on one of ear of user Point;Including radio communication circuit in the housing;Including battery in the housing;Including in the housing and being arranged to work as shell A part for body is connected to the loud speaker of a period of time user oriented ear drum membrane of the ear of user;With including in the housing at least One sensor.Electronic equipment may include processor, which includes in the housing and being electrically connected to wireless communication electricity Road, battery, loud speaker and at least one sensor.Electronic equipment may include storage device, which is included in shell In and be electrically connected to processor.Electronic equipment may include include volatile memory in the housing.Storage device can be with Store instruction, the instruction make processor when executed:Audio data is received from the first external equipment by using telecommunication circuit; The audio data received is stored in volatile memory;The connection from the second external equipment is asked, this is outside second Equipment is configured as being removably mounted on another ear of user by using telecommunication circuit;Based on whether receiving Two external equipments receive at least one signal to the response of connection request and/or by forming requested connection from the second outside At least part, determination will be from the part that the audio data that is stored in volatile memory exports;And it is defeated by loud speaker Go out determining part.

In the case where the second external equipment is not responding to connection request, it is completely defeated that instruction can make processor pass through loud speaker Go out audio data.

At least one signal received from the second external equipment may include the status information of the second external equipment.Instruction can So that processor is only exported in the case where the status information of the external equipment received includes first state by loud speaker A part of audio data, and pass through loud speaker in the case where the status information of the external equipment received includes the second state Output audio data completely.

First state may include the state that the second external equipment is positioned close to user, and the second state may include outside second The state that portion's equipment is positioned not close to user.

Fig. 9 A are the signaling diagrams of the communication stream between electronic equipment according to an embodiment of the present disclosure.

System 9a includes the first electronic equipment 9-1a and/or the second electronic equipment 9-2a, may include that the electronics of Fig. 1 is set Standby 101 and/or second external electronic device 104 all or some component;Alternatively, the first electronic equipment 9-1a may include figure All or some component of 6 the first electronic equipment 5, the second electronic equipment 9-2a may include the second electronic equipment 6 of Fig. 6 All or some component.

With reference to figure 9A, in step 901a, the first electronic equipment 9-1a, which can be received, is stored in the first electronic equipment 9-1a Memory in audio data rendering requests.For example, the rendering requests of audio data can be carried out by user's input.

In step 903a, the first electronic equipment 9-1a and the second electronic equipment 9-2a can carry out operation communication each other. For example, the first electronic equipment 9-1a and can be connected by using short range communication (for example, WiFi, bluetooth, NFC or GNSS) Two electronic equipment 9-2a.Alternatively, the first electronic equipment 9-1a and the second electronic equipment 9-2a can be connected before rendering requests.

In step 905a, when confirmation the first electronic equipment 9-1a and the second electronic equipment 9-2a is positioned in relatively close user Position when, the first electronic equipment 9-1a and the second electronic equipment 9-2a can be set in dual-mode.For example, in the first electronics In the case that equipment 9-1a and the second electronic equipment 9-2a is worn on the opposing ear of user, the first electronic equipment 9- can be set 1a and the second electronic equipment 9-2a.In dual-mode.

In step 907a, the first electronic equipment 9-1a can be sent to the second electronic equipment 9-2a to be reproduced with to it The relevant synchronizing signal of audio data of request.

In step 909a, the second electronic equipment 9-2a can be sent in response to synchronizing signal to the first electronic equipment 9-1a Synchronous enabled response.For example, in the identical sound of audio data corresponding with the synchronizing signal received from the first electronic equipment 9-1a For frequency according in the case of being stored in the second electronic equipment 9-2a, the second electronic equipment 9-2a can will be relevant with synchronizing signal Synchronous enabled response is sent to the first electronic equipment 9-1a.

In step 911a, received and the relevant synchronous enabled response of synchronizing signal when from the second electronic equipment 9-2a When, the first electronic equipment 9-1a can be reproduced as it and make the audio data of rendering requests.For example, carrying out rendering requests to it Audio data be monaural audio data in the case of, the first electronic equipment 9-1a can be with decoding mono audio data to obtain Audio signal is taken, and loud speaker exports audio signal (mono reproduction) can be passed through.Alternatively, carrying out rendering requests to it Audio data be stereo audio data in the case of, the first electronic equipment 9-1a can be with the one of decoding stereoscopic sound audio data Part can pass through loud speaker exports audio signal (stereophonics) to obtain audio signal.Stereo audio data In the part of the first electronic equipment 9-1a can be assigned to by the first decoded parts electronic equipment 9-1a.

In step 913a, synchronizing signal is received from the first electronic equipment 9-1a, the second electronic equipment 9-2a can be based on Synchronizing signal is currently stored in the identical audio data in the second electronic equipment 9-2a again.For example, being in synchronous enabled audio data In the case of monaural audio data, the second electronic equipment 9-2a can with decoding mono audio data to obtain audio signal, And loud speaker exports audio signal (mono reproduction) can be passed through.Alternatively, being stereo sound reproducing enabled audio data Frequency according in the case of, the second electronic equipment 9-2a can with a part for decoding stereoscopic sound audio data to obtain audio signal, And loud speaker exports audio signal (stereophonics) can be passed through.By the second electronic equipment 9-2a in stereo audio data Decoded part can be assigned to the part of the second electronic equipment 9-2a.

In the case where the first electronic equipment 9-1a and the second electronic equipment 9-2a store identical audio data, the first electronics Equipment 9-1a and the second electronic equipment 9-2a can independently reproduce audio data.For example, as the first electronic equipment 9-1a and the Two electronic equipment 9-2a are mounted on when on the opposite ear of user (double mode), and the first electronic equipment 9-1a can pass through its loud speaker First part's stereo audio data is exported, the second electronic equipment 9-2a can pass through its same stereo audio of loud speaker the output phase The second part of data.This can provide the stereosonic chance of experience to the user.

All audio datas of first electronic equipment 9-1a can be stored in the second electronic equipment 9-2a, such as following table Shown in 1.Because the second electronic equipment 9-2a stores all audio datas of the first electronic equipment 9-1a, the first electronic equipment 9-1a and the second electronic equipment 9-2a can reproduce identical audio data.

Table 1

First electronic equipment 9-1a	Second electronic equipment 9-2a
		ABC	ABC
BCD	BCD
		CDE	CDE
...	...

The sequence of the step in Fig. 9 A can be changed, or may be performed simultaneously some operations.

Fig. 9 B are the signaling diagrams of the communication stream between electronic equipment according to an embodiment of the present disclosure.System 9b includes first Electronic equipment 9-1b and the second electronic equipment 9-2b.First electronic equipment 9-1b or the second electronic equipment 9-2b may include Fig. 1 Electronic equipment 101 all or some component and/or the first external electronic device 102 or the second external electronic device 104 All or some component.Alternatively, the first electronic equipment 9-1b may include all or some group of the first electronic equipment 5 of Fig. 6 Part, the second electronic equipment 9-2b may include all or some component of the second electronic equipment 6 of Fig. 6.Alternatively, the first electronics is set Standby 9-1b may include all or some component of the first electronic equipment 9-1a of Fig. 9 A, and the second electronic equipment 9-2b may include All or some component of the second electronic equipment 9-2a of Fig. 9 A.

First electronic equipment 9-1b can be host electronic equipment (hereinafter referred to as " main equipment "), and the second electronic equipment 9-2b can To be from electronic equipment (hereinafter referred to as " from equipment ")..

With reference to shown in figure 9B, in step 901b-i, main equipment 9-1b can be (hereinafter referred to as " main by the time of their own Time ") T_MiIt is sent to from equipment 9-2b.Main time T_MiThe clock of the first timer in main equipment 9-1b can be included in.

In step 903b-i, in response to receiving main time T from main equipment 9-1b_Mi, confirm their own from equipment 9-2b Time (hereinafter, referred to " from the time ") T_Si, and can calculate in main time T_MiWith from time T_SiBetween differential time diff.i.From time T_SiThe clock from the second timer in equipment 9-2b can be included in.

In step 905b, main equipment can be estimated based at least some of differential time diff.i from equipment 9-2b The time of 9-1b.It can confirm minimal difference time diff.i from least one differential time diff.i from equipment 9-2b, and It can be by will be currently from time T_SiMinimal difference time diff.i is added to estimate the time of main equipment 9-1b.From equipment 9-2b It is contemplated that deviation ratio between at least one differential time diff.i and difference estimates the time of main equipment 9-1b.

The main time of estimation can be used for main equipment 9-1b in wireless built environment and between equipment 9-2b when Between it is synchronous.

It, can be when synchronous with from the wireless built environment of equipment 9-2b including main equipment 9-1b in step 905b Between.

Fig. 9 C are the signaling diagrams of the communication stream of the system between electronic equipment according to an embodiment of the present disclosure.System 9c can To include the first electronic equipment 9-1c and the second electronic equipment 9-2c.First electronic equipment 9-1c or the second electronic equipment 9-2c can With all or some component of the electronic equipment 101 including Fig. 1, or may include Fig. 1 the first external electronic device 102 or All or some component of second external electronic device 104.Alternatively, the first electronic equipment 9-1c may include the first electricity of Fig. 6 All or some component of sub- equipment 5, the second electronic equipment 9-2c may include the whole or one of the second electronic equipment 6 of Fig. 6 A little components.First electronic equipment 9-1c may include all or some component of the first electronic equipment 9-1b of Fig. 9 B, the second electricity Sub- equipment 9-2c may include all or some component of the second electronic equipment 9-2b of Fig. 9 B.

First electronic equipment 9-1c can be host electronic equipment, and the second electronic equipment 9-2c can be from electronic equipment.

In step 901c, main equipment 9-1c can be sensed and the relevant order of audio data.The order can be from outside Electronic equipment is sent to main equipment 9-1c, or can be by the various input equipments that are included in main equipment 9-1c (for example, key Button, membrane keyboard button and voice-recognition device) it generates.

In step 903c, order and exectorial time can be transmitted to from equipment 9-2c by main equipment 9-1c.Example Such as, the exectorial time can be by the way that preset time is added to the main time when main equipment 9-1c has sensed order And the time obtained.Alternatively, the exectorial time can be by having been sent commands to from equipment in main equipment 9-1c The time that setting time is added to the main time when 9-2c and is obtained.Setting time can consider to send commands to from equipment Time needed for 9-2c and the time that the time needed for order and determination are executed from equipment 9-2c.

In step 905c, the time of main equipment 9-1c can be estimated from equipment 9-2c.It can be based on ginseng from equipment 9-2c The operating process of Fig. 9 B descriptions is examined to estimate the time of main equipment 9-1c.In step 905c, the main time of estimation can be used for Main equipment 9-1c in wireless built environment and from the time synchronization between equipment 9-2c.

When arriving between when a command is acted on it is either, main equipment 9-1c detects it in step 907c, and is held in step 909c Line command.

When the main time of estimation, which reaches order, executes the time, it is detected in step 911c from equipment 9-2c, and Order is executed in step 913c.

It can start with such as reproduction with the relevant order of audio data, reproduce stopping, reproducing pause, reproduce and restore, again Existing position, reproduction speed, reproduction are skipped, next voice data reproducing or preceding audio data reproduction are related.Alternatively, with audio number It can be related to such as volume control or audio according to relevant order.It can be to enable other various orders.

Main equipment 9-1c can execute order with from equipment 9-2c in the synchronous time of the operating process according to Fig. 9 C.

As shown in Figure 9 C can be applied to come exectorial flow in double mode shown in Fig. 9 A by synchronization time The first electronic equipment 9-1a and the second electronic equipment 9-2a independently reproduce the operating process of identical audio data.

Fig. 9 D are the signaling diagrams of the communication stream of the system between electronic equipment according to an embodiment of the present disclosure.System 9d can To include the first electronic equipment 9-1d and the second electronic equipment 9-2d.First electronic equipment 9-1d or the second electronic equipment 9-2d can With all or some component of the electronic equipment 101 including Fig. 1, or may include Fig. 1 the first external electronic device 102 or All or some component of second external electronic device 104.Alternatively, the first electronic equipment 9-1d may include the first electricity of Fig. 6 All or some component of sub- equipment 5, the second electronic equipment 9-2d may include the whole or one of the second electronic equipment 6 of Fig. 6 A little components.First electronic equipment 9-1d may include all or some component of the first electronic equipment 9-1b of Fig. 9 B, the second electricity Sub- equipment 9-2d may include all or some component of the second electronic equipment 9-2b of Fig. 9 B.

First electronic equipment 9-1d can be host electronic equipment, and the second electronic equipment 9-2d can be from electronic equipment.

In step 901d, main equipment 9-1d can reproduce audio data.

In step 911d, audio data can be reproduced from equipment 9-2d.Main equipment 9-1d and can be with base from equipment 9-2d Identical audio data is independently reproduced in dual-mode in the operating process described above with reference to Fig. 9 A.Main equipment 9-1d and from Equipment 9-2d can independently reproduce identical sound by executing order at the time that the operating process using Fig. 9 C synchronizes Frequency evidence.

In step 903d, while reproducing audio data, main equipment 9-1d can send synch command.

In step 913d, while reproducing audio data, synch command can be sent from equipment 9-2d.Main equipment 9- 1d and from equipment 9-2d can by using the operating process of Fig. 9 B send synch command.For example, main equipment 9-1d can be passed through And synch command is invoked periodically from the time synchronization between equipment 9-2d.

In step 905d, main equipment 9-1d can confirm the reproducing positions P1 of audio data according to synch command.

In step 915d, the reproducing positions P2 of audio data can be confirmed according to synch command from equipment 9-2d.

In step 917d, reproducing positions P2 can be sent to main equipment 9-1d from equipment 9-2d.

In step 907d, main equipment 9-1d can determine whether the reproducing positions difference between reproducing positions P1 and P2 is more than Reference value.

When the reproducing positions difference between reproducing positions P1 and P2 is more than reference value, in step 909d, main equipment 9-1d Reproducing positions can be sent to for the synchronous time from equipment 9-2d.It can refer to from reproduction for synchronous reproducing positions Reproducing positions after the setting time of position P1.Synchronization time can be the master by the way that setting time to be added to reproducing positions P1 Time and the time obtained.

In step 919d, the time of main equipment 9-1d can be estimated from equipment 9-2d.It can be based on figure from equipment 9-2d The time of the operating process estimation main equipment 9-1d of 9B.

When the main time of estimation reaching synchronization time, it is detected in step 921d, and in step from equipment 9-2d Reproducing positions are adjusted to by 923d will be by synchronous reproducing positions.

The operating process of Fig. 9 D can be synchronized by using main equipment 9-1d and from the time synchronization between equipment 9-2d The reproducing positions of audio data.

Fig. 9 E are the signaling diagrams of the communication stream of the system between electronic equipment according to an embodiment of the present disclosure.System 9e can To include the first electronic equipment 9-1e and the second electronic equipment 9-2e.First electronic equipment 9-1e or the second electronic equipment 9-2e can With all or some component of the electronic equipment 101 including Fig. 1, or may include Fig. 1 the first external electronic device 102 or All or some component of second external electronic device 104.Alternatively, the first electronic equipment 9-1e may include the first electricity of Fig. 6 All or some component of sub- equipment 5, the second electronic equipment 9-2e may include the whole or one of the second electronic equipment 6 of Fig. 6 A little components.First electronic equipment 9-1e may include all or some component of the first electronic equipment 9-1b of Fig. 9 B, the second electricity Sub- equipment 9-2e may include all or some component of the second electronic equipment 9-2b of Fig. 9 B.

First electronic equipment 9-1e can be host electronic equipment, and the second electronic equipment 9-2e can be from electronic equipment.

Main equipment 9-1e and from equipment 9-2e can according to following operating process by using time synchronization come isochronous audio The reproducing positions of data.

In step 901e, main equipment 9-1e can reproduce audio data.

In step 911e, audio data can be reproduced from equipment 9-2e.Main equipment 9-1e and can be with base from equipment 9-2e Identical audio data is independently reproduced in dual-mode in the operating process described above with reference to Fig. 9 A.Main equipment 9-1e and from Equipment 9-2e can independently reproduce identical sound by executing order at the time that the operating process using Fig. 9 C synchronizes Frequency evidence.

In step 903e, while reproducing audio data, main equipment 9-1e can call synch command.It can be with the period Call synch command to property.

In step 905e, main equipment 9-1e can confirm the reproducing positions of audio data according to synch command.For example, main Equipment 9-1e can determine audio number after calling the time point of synch command or the setting time since the time point According to reproducing positions.

In step 907e, main equipment 9-1e can the reproducing positions based on confirmation sent to from equipment 9-2e for synchronizing Reproducing positions and the time.For example, for synchronous reproducing positions can refer to the setting time from the reproducing positions of confirmation it Reproducing positions afterwards.Obtained by being the main time of the reproducing positions by the way that setting time to be added to confirmation synchronization time when Between.

In step 913e, the time of main equipment 9-1e can be estimated from equipment 9-2e.It can be based on figure from equipment 9-2e The time of the operating process estimation main equipment 9-1e of 9B.

When the main time of estimation reaching synchronization time, in operating 915e it is detected from equipment 9-2e and in step Reproducing positions are adjusted to for synchronous reproducing positions in 917e.

Fig. 9 F are the signaling diagrams of the communication stream of the system between electronic equipment according to an embodiment of the present disclosure.System 9f can To include the first electronic equipment 9-1f and the second electronic equipment 9-2f.First electronic equipment 9-1f or the second electronic equipment 9-2f can With all or some component of the electronic equipment 101 including Fig. 1, or it may include the first external electronic device 102 or the of Fig. 1 All or some component of two external electronic devices 104.Alternatively, the first electronic equipment 9-1f may include the first electronics of Fig. 6 All or some component of equipment 5, the second electronic equipment 9-2f may include all or some of the second electronic equipment 6 of Fig. 6 Component.First electronic equipment 9-1f may include all or some component of the first electronic equipment 9-1b of Fig. 9 B, the second electronics Equipment 9-2f may include all or some component of the second electronic equipment 9-2b of Fig. 9 B.

First electronic equipment 9-1f can be host electronic equipment, and the second electronic equipment 9-2f can be from electronic equipment.

Main equipment 9-1f and it can reproduce identical audio data according to following operating process from equipment 9-2f.

When generating request (or order) for reproducing audio data, in step 901f, main equipment 9-1f can feel Survey generated audio.Request for reproducing audio data can be sent to main equipment 9-1f from external electronic device, or It can be by the various input equipments that are included in main equipment 9-1f (for example, key button, membrane keyboard button and voice recognition are set It is standby) it generates.

In step 903f, main equipment 9-1f can obtain the Hash codes of the audio data for carrying out rendering requests.It can To generate Hash codes from the title (for example, filename or content name) of instruction audio data.Alternatively, main equipment 9-1f can be with It is confirmed as it and carries out the data size of the audio data of rendering requests.Alternatively, when audio data is stored in the first electronic equipment 9- When in 1f or the second electronic equipment 9-2f, it can generate and store Hash codes.

In step 905f, Hash codes (and data size) can be sent to from equipment 9-2f by main equipment 9-1f.For example, By transmission Hash codes (and data size) rather than the title of instruction audio data, host 9-1f can reduce data transmission Amount.

In step 911f, it can be identified and the Hash codes (and data size) from main equipment 9-1f receptions from equipment 9-2f Corresponding audio data.For example, can be confirmed as it from Hash codes (and data size) from equipment 9-2f makes rendering requests Audio data.

In step 907f, main equipment 9-1f can be reproduced as it and carry out the audio data of rendering requests.

In step 913f, the audio data identified from Hash codes (and data size) can be reproduced from equipment 9-2f.

The flow for executing order (for example, voice data reproducing request) by synchronization time as shown in Figure 9 C is applicable In the operating process of Fig. 9 F.Main equipment 9-1f and identical audio number can be independently reproduced in dual-mode from equipment 9-2f According to.

Figure 10 A are the signaling diagrams of the communication stream of the system between electronic equipment according to an embodiment of the present disclosure.System 10a May include the first electronic equipment 10-1a and the second electronic equipment 10-2a.First electronic equipment 10-1a and/or the second electronics are set Standby 10-2a may include all or some component of the electronic equipment 101 of Fig. 1, or may include the first external electrical of Fig. 1 All or some component of equipment 102 or the second external electronic device 104.Alternatively, the first electronic equipment 10-1a may include figure All or some component of 6 the first electronic equipment 5, the second electronic equipment 10-2a may include the second electronic equipment 6 of Fig. 6 All or some component.

With reference to figure 10A, in step 1001a, the first electronic equipment 10-1a, which can be received, is stored in the first electronic equipment The rendering requests of audio data in the memory of 10-1a.For example, can be caused to audio data again by user's input Now ask.

In step 1003a, the first electronic equipment 10-1a and the second electronic equipment 10-2a can be communicated to connect.

In step 1005a, when confirmation the first electronic equipment 10-1a and the second electronic equipment 10-2a is in close to user Location status when, double mode can be arranged in the first electronic equipment 10-1a and the second electronic equipment 10-2a.For example, in the first electricity In the case that sub- equipment 10-1a and the second electronic equipment 10-2a is worn on the opposing ear of user, the first electronic equipment 10-1a It can enter double mode with the second electronic equipment 10-2a.

In step 1007a, the first electronic equipment 10-1a can will be related to the audio data of rendering requests is carried out to it Synchronizing signal be sent to the second electronic equipment 10-2a.

In step 1009a, the second electronic equipment 10-2a can be in response to synchronizing signal to the first electronic equipment 10-1a Send synchronization disabled response.For example, identical in audio data corresponding with the synchronizing signal of the first electronic equipment 10-1a receptions In the case that audio data is not stored in the second electronic equipment 10-2a, the second electronic equipment 10-2a can will be with synchronizing signal Relevant synchronization disabled response is sent to the first electronic equipment 10-1a.

Some audio datas of first electronic equipment 10-1a can be not stored in the second electronic equipment 10-2a, such as following Table 2 shown in.

Table 2

First electronic equipment 10-1a	Second electronic equipment 10-2a
		ABC	ABC
BCD	CDE
		CDE	EFG
...	...

For example, can be that " BCD " audio data generates rendering requests, which is stored in the first electronics and sets In standby 10-1a, but it is not stored in the second electronic equipment 10-2a.First electronic equipment 10-1a can will be used for " BCD " The synchronizing signal of audio data is sent to the second electronic equipment 10-2a.Second electronic equipment 10-2a can be to the first electronic equipment 10-1a sends synchronization disabled response, because it does not store " BCD " audio data.

In step 1011a, responded with the relevant synchronization disabled of synchronizing signal when being received from the second electronic equipment 10-2a When, the first electronic equipment 10-1a (stream transmission ground) transmission (or bypass) can carry out the audio of rendering requests to it in real time Data are to the second electronic equipment 10-2a.For example, being sent to the audio of the second electronic equipment 10-2a from the first electronic equipment 10-1a Data can be monaural audio data.Alternatively, being sent to the sound of the second electronic equipment 10-2a from the first electronic equipment 10-1a Frequency evidence can be stereo audio data.Stereo audio data may include corresponding with the first electronic equipment 10-1a A part of (hereinafter, referred to " the first data ") and second part corresponding with the second electronic equipment 10-2a (hereinafter, claim For " the second data ").

In step 1013a, the first electronic equipment 10-1a can be reproduced as it and send out the audio data of rendering requests.Example Such as, in the case where it is monaural audio data to carry out the audio data of rendering requests to it, the first electronic equipment 10-1a can be with Decoding mono audio data can pass through loud speaker exports audio signal (mono reproduction) to obtain audio signal. Alternatively, in the case where it is stereo audio data to carry out the audio data of rendering requests to it, the first electronic equipment 10-1a can It is decoded to obtain the first audio signal with the first audio data to stereo audio data, and is exported by loud speaker First audio signal (stereophonics).

In step 1015a, the second electronic equipment 10-2a can reproduce the audio received from the first electronic equipment 10-1a Data.For example, in the case where the audio data received from the first electronic equipment 10-1a is monaural audio data, the second electricity Sub- equipment 10-2a can be with decoding mono audio data to obtain audio signal, and audio letter can be exported by loud speaker Number (mono reproduction).Alternatively, the case where the audio data received from the first electronic equipment 10-1a is stereo audio data Under, the second electronic equipment 10-2a can with the second audio data of decoding stereoscopic sound audio data to obtain the second audio signal, and And the second audio signal (stereophonics) can be exported by loud speaker.

As described above, being present in the first electronic equipment 10-1a when carrying out the audio data of rendering requests to it, but do not have Have that when being present in the second electronic equipment 10-2a, the first electronic equipment 10-1a can send audio data to the second electronic equipment 10-2a (stream transmission).First electronic equipment 10-1a and the second electronic equipment 10-2a can reproduce identical audio data.Example Such as, the first electronic equipment 10-1a may be used as main equipment, and the second electronic equipment 10-2a may be used as from equipment.

When the first electronic equipment 10-1a and the second electronic equipment 10-2a is mounted on the opposite ear of user (double mode), First electronic equipment 10-1a can export monaural audio data by its loud speaker, and the second electronic equipment 10-2a can be with The identical monaural audio data received from the first electronic equipment 10-1a by the output of its loud speaker.

When the first electronic equipment 10-1a and the second electronic equipment 10-2a is mounted on the opposite ear of user (double mode), First electronic equipment 10-1a can export the first data of stereo audio data, the second electronic equipment 10- by its loud speaker 2a can export the second data from the first electronic equipment 10-1a stereo audio datas provided by its loud speaker.This can To provide the stereosonic chance of experience to the user.

According to various embodiments, thus it is possible to vary the operation order of Figure 10 A, or may be performed simultaneously some operations.

Figure 10 B are the signaling diagrams of the communication stream of the system between electronic equipment according to an embodiment of the present disclosure.System 10b May include the first electronic equipment 10-1b and the second electronic equipment 10-2b.First electronic equipment 10-1b or the second electronic equipment 10-2b may include all or some component of the electronic equipment 101 of Fig. 1, or may include the first external electronic device of Fig. 1 102 or second external electronic device 104 all or some component.Alternatively, the first electronic equipment 10-1b may include Fig. 6's All or some component of first electronic equipment 5, the second electronic equipment 10-2b may include the complete of the second electronic equipment 6 of Fig. 6 Portion or some components.

With reference to figure 10B, in step 1001b, the first electronic equipment 10-1b, which can be received, is stored in the first electronic equipment The rendering requests of audio data in the memory of 10-1b.For example, can be caused to audio data again by user's input Now ask.

In step 1003b, the first electronic equipment 10-1b and the second electronic equipment 10-2b can be communicated to connect.

In step 1005b, when confirmation the first electronic equipment 10-1b and the second electronic equipment 10-2b is in close to user Position when, double mode can be arranged in the first electronic equipment 10-1b and the second electronic equipment 10-2b.For example, being set in the first electronics In the case that standby 10-1b and the second electronic equipment 10-2b is worn on the opposite ear of user, the first electronic equipment 10-1b and the Two electronic equipment 10-2b can enter double mode.

In step 1007b, the first electronic equipment 10-1b can send to the second electronic equipment 10-2b and be carried out with to it The relevant synchronizing signal of audio data of rendering requests.

In step 1009b, the second electronic equipment 10-2b can be in response to synchronizing signal to the first electronic equipment 10-1b Send synchronization disabled response.For example, identical as the corresponding audio data of synchronizing signal received from the first electronic equipment 10-1b Audio data be not stored in the second electronic equipment 10-2b in the case of, the second electronic equipment 10-2b can will with it is synchronous letter Number relevant synchronization disabled response is sent to the first electronic equipment 10-1b.

In step 1011b, responded with the relevant synchronization disabled of synchronizing signal when being received from the second electronic equipment 10-2b When, the first electronic equipment 10-1b can be decoded as it and make the audio data of rendering requests, to obtain audio signal.For example, the One electronic equipment 10-1b can be with decoding mono audio data to obtain audio signal.Alternatively, the first electronic equipment 10-1b can With the first audio data of decoding stereoscopic sound audio data to obtain the first audio signal, and can be with decoding stereoscopic sound frequency According to second audio data to obtain the second audio signal.

In step 1013b, audio data can be sent to the second electronic equipment 10-2b by the first electronic equipment 10-1b. It is obtained by decoding mono audio data for example, the first electronic equipment 10-1b can be sent to the second electronic equipment 10-2b Audio signal.Alternatively, the first electronic equipment 10-1b can be sent to the second electronic equipment 10-2b passes through decoding stereoscopic sound Second audio signal of frequency evidence and the first audio signal and the second audio signal of acquisition.

In step 1015b, the first electronic equipment 10-1b can pass through its loud speaker exports audio signal.For example, first Electronic equipment 10-1b can export the audio signal obtained by decoding mono audio data by its loud speaker.Alternatively, First electronic equipment 10-1b can export the first audio letter obtained by decoding stereoscopic sound audio data by its loud speaker Number and the second audio signal in the first audio signal.

In step 1017b, the second electronic equipment 10-2b can be exported by its loud speaker from the first electronic equipment 10- The audio signal that 1b is received.Second electronic equipment 10-2b can be exported by its loud speaker and be received from the first electronic equipment 10-1b Audio signal, without decoding corresponding audio data.For example, being sent to the second electronic equipment from the first electronic equipment 10-1b The audio signal of 10-2b can be the audio signal obtained by decoding mono audio data.Alternatively, being set from the first electronics The audio signal that standby 10-1b is sent to the second electronic equipment 10-2b can be obtained by decoding stereoscopic sound audio data Second audio signal.

As described above, be present in the first electronic equipment 10-1b when carrying out the audio data of rendering requests to it, but In the absence of in second electronic equipment 10-2b, the first electronic equipment 10-1b can obtain audio letter by decoding audio data Number, and the audio signal of acquisition can be sent to the second electronic equipment 10-2b.

When the first electronic equipment 10-1b and the second electronic equipment 10-2a is mounted on the opposite ear of user (double mode), First electronic equipment 10-1b can obtain audio signal by decoding mono audio data, can be defeated by its loud speaker Go out audio signal, audio signal can be sent to the second electronic equipment 10-2b.In step 1017b, the second electronic equipment 10-2b can export identical audio signal by its loud speaker.

When the first electronic equipment 10-1b and the second electronic equipment 10-2b is mounted on the opposite ear of user (double mode), First electronic equipment 10-1b can be with the first data of decoding stereoscopic sound audio data to obtain the first audio signal and can lead to It crosses its loud speaker and exports the first audio signal.In addition, the first electronic equipment 10-1b can be with the second of decoding stereoscopic sound audio data Second audio signal can be sent to the second electronic equipment 10-2b by data to obtain the second audio signal.Second electronics Equipment 10-2b can export the second audio signal received from the first electronic equipment 10-1b by its loud speaker.First electronics is set First audio signal of standby 10-1b outputs and the second audio signal of the second electronic equipment 10-2b outputs can provide to the user Experience stereosonic chance.

According to various embodiments, thus it is possible to vary the sequence of the operation of Figure 10 B, or may be performed simultaneously some operations.

Figure 11 is the flow chart of the operating method of electronic equipment according to an embodiment of the present disclosure.Electronic equipment can be figure 1 electronic equipment 101, the first external electronic device 102 of Fig. 1 or the second external electronic device 104, or can be Fig. 7 Electronic equipment 700.

With reference to figure 11, in step 1101, the audio number in the memory 750 of Fig. 7 to be stored in electronic equipment 700 When according to generating rendering requests, the audio data of generation can be sensed in the processor 780 of Fig. 7.

In step 1103, in response to the rendering requests to audio data, external electronic device can be confirmed in processor 780 Whether can connect in the communications.

When confirming that external electronic device can not connect in the communications in step 1103, processor 780 can be in step Enter non-double mode in 1115.

In step 1117, processor 780 can use monophonic method to reproduce audio data, for the audio data, with Non- double mode carries out rendering requests.For example, even if it is stereo audio data to make the audio data of rendering requests for it, processing Device 780 can also export entire audio data by the loud speaker 741 of Fig. 7.

When confirming that external electronic device can communicate to connect in step 1103, processor 780 can support electronic equipment Communication connection between 700 and external electronic device.For example, processor 780 can be asked in step 1105 and external electrical The communication connection of equipment.When being received from external electronic device to the response of communication connection request, processor 780 can support with The communication connection of external electronic device.

In step 1107, processor 780 can determine use pattern.

When confirming that user is located near both electronic equipment 700 and external electronic device, processor 780 can select double Pattern.Alternatively, when confirming that at least one of electronic equipment 700 and external electronic device are not positioned close to user, processor 780 can select non-double mode.

When the distance between electronic equipment 700 and external electronic device are no more than critical distance, processor 780 can select Select double mode.For example, when electronic equipment 700 and external electronic device are worn on the opposing ear of user, two electronics are set It is the distance between standby can be in critical distance.Alternatively, when the distance between electronic equipment 700 and external electronic device are more than to face Boundary apart from when, processor 780 can select non-double mode.

It can set external electronic device to not allowing the communication connection with electronic equipment 700, and processor 780 can To select non-double mode.Alternatively, electronic equipment 700 can be set to not allow the communication connection with external electronic device, and And processor 780 can select non-double mode.

External equipment is mounted on (for example, charging when sensing at least one of electronic equipment 700 and external electronic device Equipment) on when, processor 780 can select non-double mode.

When determining non-double mode in step 1107, processor 780 can be reproduced as it with monophonic method and make again The audio data now asked.

When in step 1107 determine double mode when, processor 780 can in step 1109 will with reproduction is made to it The relevant synchronizing signal of audio data of request is sent to external electronic device.

In step 1111, processor 780 can be confirmed whether received from external electronic device it is related to synchronizing signal Synchronous enabled response.

In step 1111, processor 780 can be confirmed whether received from the second electronic equipment 6 it is related to synchronizing signal Synchronous enabled response.For example, the identical audio data corresponding with the synchronizing signal received from electronic equipment 700 the case where Under, then external electronic device can will be sent to electronic equipment 700 with the relevant synchronous enabled response of synchronizing signal.

Sense receive synchronous enabled response from external electronic device in the case of, the processor in step 1113 780, which can be reproduced as it, makes the audio data of rendering requests.For example, being single carrying out the audio data of rendering requests for it In the case of channel audio data, processor 780 can be decoded monaural audio data to obtain audio signal, and Support can be provided so that pass through 741 exports audio signal of loud speaker (mono reproduction) of Fig. 7.Alternatively, being carried out again to it In the case that the audio data now asked is stereo audio data, processor 780 can be with the one of decoding stereoscopic sound audio data Part can pass through 741 exports audio signal of loud speaker (stereophonics) to obtain audio signal.It is being determined to make It synchronizes in the case of corresponding to synchronizing signal, external electronic device can utilize monophonic method or stereo side according to its type Method reproduces identical audio data stored in memory.For example, when electronic equipment 700 and external electronic device are mounted on user Opposite ear on when (double mode), electronic equipment 700 can be exported by loud speaker 741 and be stored in solid in memory 750 A part for sound audio data.And identical stereo audio data stored in memory can be exported by loud speaker A part.This can provide the stereosonic chance of experience to the user.

In step 1111, processor 780 can sense received from external electronic device it is relevant with synchronizing signal Synchronization disabled responds.For example, not deposited with the corresponding identical audio data of synchronizing signal received from electronic equipment 700 confirming In the case that storage is in external electronic device, external electronic device can be sent to be responsive to the relevant synchronization disabled of synchronizing signal Electronic equipment 700.

In the case where receiving synchronization disabled response from the second electronic equipment 6, processor 780 can be in step 1119 It is reproduced as it and makes the audio data of rendering requests.For example, being monophonic audio for the audio data for carrying out rendering requests In the case of data, processor 780 can be decoded audio data to obtain audio signal, and can provide support, So that passing through 741 exports audio signal of loud speaker (mono reproduction).Alternatively, being carrying out the audio data of rendering requests to it In the case of stereo audio data, processor 780 can with a part for decoding stereoscopic sound audio data to obtain audio signal, And 741 exports audio signal of loud speaker (stereophonics) can be passed through.For example, stereo audio data may include and electricity 700 corresponding first audio data of sub- equipment and second audio data corresponding with external electronic device.Electronic equipment 700 The first audio data that can carry out decoding stereoscopic sound audio data by using codec (for example, SBC codecs), to obtain Take the first audio signal.Electronic equipment 700 can export the first audio signal by loud speaker 741.

In step 1121, processor 780 can be sent to external electrical by the audio data of rendering requests is carried out to it Equipment (stream transmission).External electronic device can be set with monophonic method or binaural method reproduction from electronics according to its type Standby 700 audio datas received.For example, (double when electronic equipment 700 and external electronic device are mounted on the opposite ear of user Pattern), electronic equipment 700 can decode the stereo audio data being stored in memory 750 by using codec The first data to obtain the first audio signal, and the first acquired audio signal can be exported by loud speaker 741.Such as Described in Figure 13, external electronic device can decode the of the stereo audio data received from electronic equipment 700 Two data can export the second acquired audio signal to obtain the second audio signal by loud speaker.Electronic equipment First audio signal of 700 outputs and the second audio signal of external electronic device output can provide experience stereosonic machine Meeting.

Following operation can be executed to replace aforesaid operations 1119 and 1121.For example, when being received from external electronic device When being responded with the relevant synchronization disabled of synchronizing signal, electronic equipment 700 can be decoded as it and make the audio data of rendering requests, To obtain audio signal, and acquired audio signal can be sent to external electronic device.External electronic device can lead to It crosses its loud speaker and exports the audio signal received from electronic equipment 700, without being decoded to audio data.

For example, electronic equipment 700 can be with decoding mono audio data to obtain audio signal.Electronic equipment 700 can be with By its loud speaker exports audio signal, and audio signal can be sent to external electronic device.When 700 He of electronic equipment External electronic device is mounted on when on the opposite ear of user (double mode), and electronic equipment 700 and external electronic device can pass through Its loud speaker exports identical audio signal.

Believed with obtaining the first audio signal and the second audio for example, electronic equipment 700 can reproduce stereo audio data Number.Electronic equipment 700 can export the first audio signal by loud speaker, and can the second audio signal be sent to outside Electronic equipment.When electronic equipment 700 and external electronic device are mounted on the opposite ear of user (double mode), electronic equipment 700 can export the first audio signal by its loud speaker, and external electronic device can export second by its loud speaker Audio signal.This can provide a user the stereosonic chance of experience.

According to various embodiments, thus it is possible to vary the sequence of the operation of Figure 11, or may be performed simultaneously some operations.

Figure 12 is the flow chart of the step 1107 of the method for Figure 11 according to an embodiment of the present disclosure.

With reference to figure 12, in step 1201, processor 780 can obtain the status information of electronic equipment 700.For example, shape It is related nearby whether state information can be located at electronic equipment 700 to user.For example, when electronic equipment 700 is mounted on the ear of user When on piece, sensor 730 can provide the instruction user signal that relatively close electronic equipment 700 positions to processor 780.Or Person, when electronic equipment 700 is coupled to external equipment (for example, charging equipment), sensor 730 can be exported to processor 780 Indicate the signal that user does not have relatively close electronic equipment 700 to position.Alternatively, when electronic equipment 700 is charging, sensor 730 can provide the instruction user signal that not relatively close electronic equipment 700 positions to processor 780.

In step 1203, processor 780 can obtain the status information of external electronic device from external electronic device.Shape It is related whether state information can be positioned in relatively close the position of external electronic device to user.

In step 1205, processor 780 can be determined based at least part of the status information of electronic equipment 700 Whether user is positioned in relatively close the position of electronic equipment 700.

Alternatively, when confirming that user does not have the positioning of relatively close electronic equipment 700, processor 780 can be in step 1211 It is middle to enter non-double mode.

In the case where determining that user is positioned in relatively close electronic equipment 700, after execution step 1207 and step 1207 Other operation.

In step 1207, processor 780 can at least part based on the status information of external electronic device come really Determine the position whether user is positioned in relatively close external electronic device.

When confirming user's not only relatively close electronic equipment 700 but also when relatively close external electronic device, processor 780 can be arranged to double mode in step 1209.

When confirming that user is positioned in relatively close electronic equipment 700 but when without the position of relatively close external electronic device, It can set processor 780 to non-double mode in step 1211.

According to various embodiments, thus it is possible to vary the sequence of the operation of Figure 12, or may be performed simultaneously some operations.

Figure 13 is the flow chart of the operating method of external electronic device according to an embodiment of the present disclosure.External electronic device It may include all or some component of the electronic equipment 101 of Fig. 1, or may include the first external electronic device 102 of Fig. 1 Or second external electronic device 104 all or some component.Alternatively, external electronic device may include the electronic equipment of Fig. 7 700 all or some component.

Referring to Fig.1 3, when receiving connection request from electronic equipment 700, the processor of external electronic device can be in step Connection request is sensed in rapid 1301.

In response to receiving connection request from electronic equipment 700, the processor of external electronic device can be in step 1303 The middle communication connection supported between electronic equipment 700 and external electronic device.For example, processor can be set in response to coming from electronics Standby 700 communication connection request.

In step 1305, the processor of external electronic device can be related to audio data from the reception of electronic equipment 700 Synchronizing signal.External electronic device may be at dual mode.

In response to receiving synchronizing signal from electronic equipment 700, the processor of external electronic device can be in step 1307 The middle communication connection supported between electronic equipment 700 and external electronic device.For example, being received with from electronic equipment 700 confirming The corresponding identical audio data of synchronizing signal be stored in external electronic device in the case of, the processor of external electronic device It can determine and enable synchronization.Alternatively, confirming and the corresponding identical audio number of the synchronizing signal received from electronic equipment 700 In the case of being not stored in external electronic device, the processor of external electronic device can determine that disabling synchronizes.

When confirming enabled synchronous, the processor of external electronic device can will be related to synchronizing signal in step 1309 Synchronous enabled response be sent to electronic equipment 700.

When confirming enabled synchronous, the processor of external electronic device can reproduce identical audio number in step 1311 According to.For example, can synchronized audio data be monaural audio data in the case of, the processor of external electronic device can decode Monaural audio data can pass through loud speaker exports audio signal (mono reproduction) to obtain audio signal.Alternatively, Can synchronized audio data be stereo audio data in the case of, the processor of external electronic device can be with decoding stereoscopic sound A part for frequency evidence can pass through loud speaker exports audio signal (stereophonics) to obtain audio signal.

When confirming that disabling is synchronous, the processor of external electronic device can be sent out in step 1313 to electronic equipment 700 It send and is responded with the relevant synchronization disabled of synchronizing signal.In the case where sending synchronization disabled response, external electronic device can be from Electronic equipment 700 receives audio data.

In step 1315, the processor of external electronic device can receive audio data from electronic equipment 700.External electrical The processor of sub- equipment can store the audio data of reception in memory.

In step 1317, the processor of external electronic device can utilize monophonic method or stereo according to its type Method reproduces the audio data received.For example, being the feelings of monaural audio data in the audio data received from electronic equipment 700 Under condition, the processor of external electronic device can be with decoding mono audio data to obtain audio signal, and can pass through it Loud speaker exports audio signal (mono reproduction).Alternatively, being stereo audio in the audio data received from electronic equipment 700 In the case of data, the processor of external electronic device can be with a part for decoding stereoscopic sound audio data to obtain audio letter Number, and its loud speaker exports audio signal (stereophonics) can be passed through.For example, stereo audio data may include with 700 corresponding first audio data of electronic equipment and second audio data corresponding with external electronic device.External electrical Equipment can carry out the second audio data of decoding stereoscopic sound audio data by using codec (for example, SBC codecs), To obtain the second audio signal.External electronic device can export the second audio signal by its loud speaker.

Following operation can be executed to replace aforesaid operations 1315 and 1317.For example, external electronic device can be from electronics Equipment 700 receives audio signal, and can pass through its loud speaker exports audio signal.External electronic device can be raised by it Sound device exports the audio signal received from electronic equipment 700, without being decoded to audio data.

For example, electronic equipment 700 can be with decoding mono audio data to obtain audio signal, and audio can be believed Number it is sent to external electronic device.(the bimodulus when electronic equipment 700 and external electronic device are mounted on the opposing ear of user Formula), electronic equipment 700 and external electronic device can export identical monophonic audio by their own loud speaker respectively Signal.

For example, electronic equipment 700 can be believed with decoding stereoscopic sound audio data with obtaining the first audio signal and the second audio Number.Electronic equipment 700 can export the first audio signal by its loud speaker, and can be sent to the second audio signal outer Portion's electronic equipment.When electronic equipment 700 and external electronic device are mounted on the opposite ear of user (double mode), electronic equipment 700 can export the first audio signal by its loud speaker, and external electronic device can export second by its loud speaker Audio signal.This can provide the stereosonic chance of experience to the user.

According to various embodiments, thus it is possible to vary the sequence operated shown in Figure 13, or may be performed simultaneously some behaviour Make.

Operation electronic equipment method may include:It receives to being stored in the audio data in the memory of electronic equipment Rendering requests;Obtain the status information for the external equipment for being connected to electronic equipment;At least one based on acquired status information The part that part determination will export in audio data;And identified part is exported by the loud speaker of electronic equipment.

It is related near external electronic device whether the status information of external equipment can be located to user.

It, can be with when at least part based on acquired status information determines the part to be exported in audio data A part for audio data is determined when confirming that external equipment is located near user.Based on acquired status information at least It, can be complete when confirming that external equipment no-fix is near user when the part that a part of determination will export in audio data Determine audio data.

The method for operating electronic equipment can also include the status information for obtaining electronic equipment;By the electronic equipment of acquisition Status information is sent to external equipment.

The method of operation electronic equipment can also include that audio number of rendering requests is sent and carried out to it to external equipment According to relevant synchronization request.

Operation electronic equipment method can also include:When receiving synchronization disabled from external equipment in response to synchronization request When response, at least part audio data is sent to external equipment.

Figure 14 A are the signaling diagrams of the communication stream of system according to an embodiment of the present disclosure.System 14a may include the first electricity Sub- equipment 14-1a and the second electronic equipment 14-2a.First electronic equipment 14-1a and/or the second electronic equipment 14-2a can be wrapped All or some component of the electronic equipment 101 of Fig. 1 is included, or may include the first external electronic device 102 or the second of Fig. 1 All or some component of external electronic device 104.Alternatively, the first electronics that the first electronic equipment 14-1a may include Fig. 6 is set Standby 5 all or some component, the second electronic equipment 14-2a may include all or some group of the second electronic equipment 6 of Fig. 6 Part.

With reference to figure 14A, in step 1401a, external equipment (for example, server, smart phone, PC, PDA or access point) Audio data can be sent to the first electronic equipment 14-1a (stream transmission).First electronic equipment 14-1a can be received from outer The audio data that portion's equipment is sent.

In step 1405a, the first electronic equipment 14-1a and the second electronic equipment 14-2a can be connected to each other.

In step 1407a, when confirmation the first electronic equipment 14-1a and the second electronic equipment 14-2a is in relatively close When the state of the position of user, double mode can be arranged in the first electronic equipment 14-1a and the second electronic equipment 14-2a.For example, In the case that first electronic equipment 14-1a and the second electronic equipment 14-2a is worn on the opposing ear of user, the first electronic equipment 14-1a and the second electronic equipment 14-2a can enter double mode.

In step 1409a, the first electronic equipment 14-1a (stream transmission ground) will can be received from external equipment in real time Audio data be sent to the second electronic equipment 14-2a.For example, being sent to the second electronic equipment from the first electronic equipment 14-1a The audio data of 14-2a can be monaural audio data.It is set alternatively, being sent to the second electronics from the first electronic equipment 14-1a The audio data of standby 14-2a can be stereo audio data.

In step 1411a, the first electronic equipment 14-1a can reproduce the audio data received from external equipment.For example, In the case where the audio data received from external equipment is monaural audio data, the first electronic equipment 14-1a can be decoded Monaural audio data can pass through its loud speaker exports audio signal (monophonic reproduction) to obtain audio signal. Alternatively, in the case where the audio data received from external equipment is stereo audio data, the first electronic equipment 14-1a can be with A part for decoding stereoscopic sound audio data is to obtain audio signal, and (stereo again by its loud speaker exports audio signal It is existing).For example, stereo audio data may include the first audio data corresponding with the first electronic equipment 14-1a and with second The corresponding second audio datas of electronic equipment 14-2a.First electronic equipment 14-1a can by using codec (for example, SBC codecs) the first audio data for carrying out decoding stereoscopic sound audio data, to obtain the first audio signal.First electronics is set Standby 14-1a can export the first audio signal by its loud speaker.

In step 1413a, the second electronic equipment 14-2a can reproduce the audio received from the first electronic equipment 14-1a Data.For example, in the case where the audio data received from the first electronic equipment 14-1a is monaural audio data, the second electricity Sub- equipment 14-2a can be with decoding mono audio data to obtain audio signal, and can export sound by its loud speaker Frequency signal (mono reproduction).Alternatively, being stereo audio data in the audio data received from the first electronic equipment 14-1a In the case of, the second electronic equipment 14-2a can be with a part for decoding stereoscopic sound audio data to obtain audio signal, and can be with Pass through its loud speaker exports audio signal (stereophonics).For example, the second electronic equipment 14-2a can be by using encoding and decoding Device (for example, SBC codecs) carrys out the second audio corresponding with the second electronic equipment 14-2a in decoding stereoscopic sound audio data Data, to obtain the second audio signal.Second electronic equipment 14-2a can export the second audio signal by its loud speaker.

As described above, the first electronic equipment 14-1a can receive audio data and can store audio data.In addition, Audio data can be sent to the second electronic equipment 14-2a (stream transmission) by the first electronic equipment 14-1a.First electronic equipment Each in 14-1a and the second electronic equipment 14-2a can reproduce identical audio data.

(the bimodulus when the first electronic equipment 14-1a and the second electronic equipment 14-2a is mounted on the opposing ear of user Formula), the first electronic equipment 14-1a can export monaural audio data by its loud speaker.Second electronic equipment 14-2a can be with The identical monaural audio data received from the first electronic equipment 14-1a by the output of its loud speaker.

(the bimodulus when the first electronic equipment 14-1a and the second electronic equipment 14-2a is mounted on the opposing ear of user Formula), the first electronic equipment 14-1a can decode the stereo audio data received from external equipment to obtain the first audio letter Number, and the first audio signal can be exported by its loud speaker.Second electronic equipment 14-2a can be decoded from the first electronic equipment The second audio data for the stereo audio data that 14-1a is received can be raised one's voice with obtaining the second audio signal by it Device exports the second audio signal.First audio signal of the first electronic equipment 14-1a outputs and the second electronic equipment 14-2a outputs The second audio signal can provide the stereosonic chance of experience to the user.

According to various embodiments, thus it is possible to vary the sequence of the operation of Figure 14 A, or may be performed simultaneously some operations.

Figure 14 B are the signaling diagrams of the communication stream of system according to an embodiment of the present disclosure.System 14b may include the first electricity Sub- equipment 14-1b and the second electronic equipment 14-2b.First electronic equipment 14-1b or the second electronic equipment 14-2b may include figure All or some component of 1 electronic equipment 101, or may include Fig. 1 the first external electronic device 102 or the second outside All or some component of electronic equipment 104.Alternatively, the first electronic equipment 14-1b may include the first electronic equipment 5 of Fig. 6 All or some component, the second electronic equipment 14-2b may include all or some component of the second electronic equipment 6 of Fig. 6.

With reference to figure 14B, in step 1401b, external equipment (for example, server, smart phone, PC, PDA or access point) Audio data can be sent to the first electronic equipment 14-1b (stream transmission).First electronic equipment 14-1b can be received from outer The audio data that portion's equipment is sent.

In step 1405b, the first electronic equipment 14-1b and the second electronic equipment 14-2b can be connected to each other.

In step 1407b, when confirmation the first electronic equipment 14-1b and the second electronic equipment 14-2b is in relatively close When the state of the position of user, double mode can be arranged in the first electronic equipment 14-1b and the second electronic equipment 14-2b.For example, In the case that first electronic equipment 14-1b and the second electronic equipment 14-2b is worn on the opposing ear of user, the first electronic equipment 14-1b and the second electronic equipment 14-2b can enter double mode.

In step 1409b, the first electronic equipment 14-1b can decode the audio data received from external equipment to obtain Audio signal.For example, the first electronic equipment 14-1b can be with decoding mono audio data to obtain audio signal.Alternatively, first Electronic equipment 14-1b can be with the first audio data of decoding stereoscopic sound audio data to obtain the first audio signal, and can be with The second audio data of decoding stereoscopic sound audio data is to obtain the second audio signal.

In step 1411b, audio signal can be sent to the second electronic equipment 14-2b by the first electronic equipment 14-1b. It is obtained by decoding mono audio data for example, the first electronic equipment 14-1b can be sent to the second electronic equipment 14-2b Audio signal.Alternatively, the first electronic equipment 14-1b can be sent to the second electronic equipment 14-2b passes through decoding stereoscopic sound Frequency according to and obtain the first audio signal and the second audio signal.

In step 1413b, the first electronic equipment 14-1b can be by its loud speaker be exported through decoding audio data The audio signal of acquisition.For example, audio signal can be the audio signal obtained by decoding mono audio data.Or Person, audio signal can be the first audio signals obtained by the first audio data of decoding stereoscopic sound audio data.

In step 1415b, the second electronic equipment 14-2b can be exported by its loud speaker from the first electronic equipment 14- The audio signal that 1b is received.For example, audio signal can be the audio signal obtained by decoding mono audio data.Or Person, audio signal can be the second audio signals obtained by the second audio data of decoding stereoscopic sound audio data.

(the bimodulus when the first electronic equipment 14-1b and the second electronic equipment 14-2b is mounted on the opposing ear of user Formula), the first electronic equipment 14-1b can decode the first data of the stereo audio data received from external equipment to obtain One audio signal and the second audio signal can export the first audio signal by its loud speaker, and can be by the second audio Signal is sent to the second electronic equipment 14-2b.Second electronic equipment 14-2b can be exported from the first electronics by its loud speaker and be set The second audio signal that standby 14-1b is received.The first audio signal and the second electronic equipment of first electronic equipment 14-1b outputs Second audio signal of 14-2b outputs can provide the stereosonic chance of experience to the user.

According to various embodiments, thus it is possible to vary the sequence of some operations in Figure 14 B, or may be performed simultaneously some behaviour Make.

Figure 15 is the flow chart of the operating method of the first electronic equipment 14-1a of Figure 14 A according to an embodiment of the present disclosure. First electronic equipment 14-1a may include all or some component of the electronic equipment 700 of Fig. 7.

Referring to Fig.1 5, when receiving sound from external electronic device (for example, server, smart phone, PC, PDA or access point) Frequency according to when, the processor 780 of the first electronic equipment 14-1a can sense the audio data in step.Processor or One electronic equipment 14-1a the audio data received from external equipment can be stored in memory (for example, volatile memory or Nonvolatile memory) in.

In response to the reception of the audio data from external equipment, the processor 780 of the first external equipment 14-1a can be true Whether the electronic equipment 14-2a for recognizing Figure 14 A is attachable in communication.

When confirming that the second electronic equipment 14-2a can not be connected in the communications in operation 1507, the first electronic equipment 14- The processor 780 of 1a can enter non-double mode in step 1515.

In step 1517, the processor 780 of the first electronic equipment 14-1a can reproduce under non-double mode to be set from outside The standby audio data received.For example, in the case where the audio data received from external equipment is monaural audio data, first The processor 780 of electronic equipment 14-1a can with decoding mono audio data to obtain audio signal, and can by it Loud speaker exports audio signal (mono reproduction).Alternatively, even if the audio data received from external equipment is stereo audio Data, the processor 780 of the first electronic equipment 14-1a can also decoding stereoscopic sound audio data completely to obtain audio signal, And its loud speaker exports audio signal (mono reproduction) can be passed through.

When confirming that the second electronic equipment 14-2a can be communicated to connect in step 1505, set in first electronics of step 1507 The processor 780 of standby 14-1a can support the communication connection between the first electronic equipment 14-1a and the second electronic equipment 14.Example Such as, the processor 780 of the first electronic equipment 14-1a can ask the communication connection with the second electronic equipment 14-2a.First electronics The processor 780 of equipment 14-1a can receive response in response to communication connection request from the second electronic equipment 14-2a.

In step 1509, the processor 780 of the first electronic equipment 14-1a can determine use pattern.

When confirming that user is positioned in relatively close both the first electronic equipment 14-1a and the second electronic equipment 14-2a, first The processor 780 of electronic equipment 14-1a can select double mode.Alternatively, when confirming the first electronic equipment 14-1a and the second electronics When at least one of equipment 14-2a is positioned without relatively close user, the processor 780 of the first electronic equipment 14-1a can be with Select non-double mode.

When confirming that the distance between the first electronic equipment 14-1a and the second electronic equipment 14-2a are no more than critical distance, The processor 780 of first electronic equipment 14-1a can select double mode.For example, when the first electronic equipment 14-1a and the second electronics When equipment 14-2a is worn on the opposing ear of user, the distance between two electronic equipments 14-1a and 14-2a can face In boundary's distance.Alternatively, when the distance between two electronic equipments 14-1a and 14-2a are more than critical distance, the first electronic equipment The processor 780 of 14-1a can select non-double mode.

Second electronic equipment 14-2a can be set to not allow the communication connection with the first electronic equipment 14-1a, and The processor 780 of first electronic equipment 14-1a can select non-double mode.Alternatively, the first electronic equipment 14-1a can be set Processor 780 for the communication connection for not allowing with the second electronic equipment 14-2a, and the first electronic equipment 14-1a can select Select non-double mode.

It is set mounted on outside when sensing at least one of the first electronic equipment 14-1a and the second electronic equipment 14-2a When on standby (for example, charging equipment), the processor 780 of the first electronic equipment 14-1a can select non-double mode.

When selecting non-double mode in step 1509, the processor 780 of the first electronic equipment 14-1a can be in step The audio data received from external equipment is reproduced in 1517.For example, being monophonic in the audio data received from external equipment In the case of audio data, the processor of the first electronic equipment 14-1a can be with decoding mono audio data to obtain audio letter Number, and its loud speaker exports audio signal (mono reproduction) can be passed through.Alternatively, even if the audio received from external equipment Data are stereo audio datas, and the processor 780 of the first electronic equipment 14-1a can also complete decoding stereoscopic sound audio data To obtain audio signal, and its loud speaker exports audio signal (mono reproduction) can be passed through.

When determining non-double mode in step 1509, the processor 780 of the first electronic equipment 14-1a can be in step The audio data received from external equipment is reproduced in 1511.For example, being monophonic sound in the audio data received from external equipment For frequency in the case of, the processor 780 of the first electronic equipment 14-1a can be with decoding mono audio data to obtain audio letter Number, and its loud speaker exports audio signal (mono reproduction) can be passed through.Alternatively, in the audio number received from external equipment In the case of being stereo audio data, the processor 780 of the first electronic equipment 14-1a can be with decoding stereoscopic sound audio data The first audio data to obtain the first audio signal, and the first audio signal can be exported by loud speaker (stereo again It is existing).

In step 1513, the processor 780 of the first electronic equipment 14-1a will can be received from external equipment in real time Audio data is sent to the second electronic equipment 14-2a.Second electronic equipment 14-2a can be reproduced from the first electronic equipment 14-1a The audio data of reception.For example, the second electronic equipment 14-2a can receive monophonic audio number from the first electronic equipment 14-1a According to.Second electronic equipment 14-1a can be with decoding mono audio data to obtain audio signal, and can pass through its loud speaker Exports audio signal.Alternatively, the second electronic equipment 14-2a can receive stereo audio data from the first electronic equipment 14-1a. Second electronic equipment 14-2a can with the second audio data of decoding stereoscopic sound audio data to obtain the second audio signal, and The second audio signal can be exported by its loud speaker.

Following operation can be executed to replace aforesaid operations 1511 and 1513.When determining double mode in step 1509, The processor 780 of the electronic equipment 14-1b of Figure 14 B can decode the audio data received from external equipment to obtain audio letter Number, and acquired audio signal can be sent to the electronic equipment 14-2b of Figure 14.For example, the second electronic equipment 14-2b The audio signal received from the first electronic equipment 14-1b can be exported by its loud speaker without decoding audio data.

For example, the first electronic equipment 14-1b can be with decoding mono audio data to obtain audio signal.First electronics is set Standby 14-1b can be by its loud speaker exports audio signal, and audio signal can be sent to the second electronic equipment 14- 2b.When the first electronic equipment 14-1b and the second electronic equipment 14-2b is mounted on the opposite ear of user (double mode), first Electronic equipment 14-1b and the second electronic equipment 14-2b can export identical audio signal by respective loud speaker.

For example, the first electronic equipment 14-1b can be with decoding stereoscopic sound audio data to obtain the first audio signal and second Audio signal.First electronic equipment 14-1b can export the first audio signal by its loud speaker, and can be by the second audio Signal is sent to the second electronic equipment 14-2b.When the first electronic equipment 14-1b and the second electronic equipment 14-2b is mounted on user Opposite ear on when (double mode), the first electronic equipment 14-1b can export the first audio signal, and the by its loud speaker Two electronic equipment equipment 14-2b can export the second audio signal by its loud speaker.It is three-dimensional that this can provide experience to the user The chance of sound.

According to various embodiments, thus it is possible to vary the sequence of the operation of Figure 15, or may be performed simultaneously some operations.

Figure 16 is the flow chart of the operating method of the second electronic equipment 14-2a of Figure 14 A according to an embodiment of the present disclosure. Second electronic equipment 14-2a may include all or some component of the electronic equipment 700 of Fig. 7.

With reference to figure 16, when receiving connection request from the electronic equipment 14-1a of Figure 14, the second electronic equipment 14-2a's Processor 780 can sense this point in step 1601.

In response to the reception of the connection request from the first electronic equipment 14-1a, the processor of the second electronic equipment 14-2a 780 can support the communication connection between the first electronic equipment 14-1a and the second electronic equipment 14-2a.For example, the second electronics is set The processor 780 of standby 14-2a can respond the communication connection request from the first electronic equipment 14-1a.

In step 1605, the processor 780 of the second electronic equipment 14-2a can be received and be stored from the first electronic equipment The audio data that 14-1a is sent.Second electronic equipment 14-2a may be at dual mode.

In step 1605, the processor 780 of the second electronic equipment 14-2a can be reproduced from the first electronic equipment 14-1a The audio data of reception.For example, the case where the audio data received from the first electronic equipment 14-1a is monaural audio data Under, the processor 780 of the second electronic equipment 14-2a can be with decoding mono audio data to obtain audio signal, and can be with Pass through its loud speaker exports audio signal (mono reproduction).Alternatively, in the audio data received from the first electronic equipment 14-1a In the case of being stereo audio data, the processor 780 of the second electronic equipment 14-2a can be with decoding stereoscopic sound audio data Second audio data can export the second audio signal (stereophonics) to obtain the second audio signal by its loud speaker.

Following operation can be executed to replace above-mentioned steps 1605 and 1607.For example, the second electronic equipment 14- of Figure 14 B 2b can receive audio signal from the first electronic equipment 14-1b of Figure 14 B, can pass through its loud speaker exports audio signal.The Two electronic equipment 14-2b can export the audio signal received from the first electronic equipment 14-1b by its loud speaker, without to sound Frequency evidence is decoded.

For example, the first electronic equipment 14-1b can be with decoding mono audio data to obtain audio signal, and can incite somebody to action Audio signal is sent to the second electronic equipment 14-2b.When the first electronic equipment 14-1b and the second electronic equipment 14-2b are mounted on When on the opposite ear of user (double mode), the first electronic equipment 14-1b and the second electronic equipment 14-2b can be raised by respective Sound device exports identical audio signal.

For example, the first electronic equipment 14-1b can be with decoding stereoscopic sound audio data to obtain the first audio signal and second Audio signal.First electronic equipment 14-1b can export the first audio signal by its loud speaker, and can be by the second audio Signal is sent to the second electronic equipment 14-2b.When the first electronic equipment 14-1b and the second electronic equipment 14-2b is mounted on user Opposite ear on when (double mode), the first electronic equipment 14-1b can export the first audio signal, and the by its loud speaker Two electronic equipment equipment 14-2b can export the second audio signal by its loud speaker.It is three-dimensional that this can provide experience to the user The chance of sound.

The sequence for the step of Figure 16 can be changed, or may be performed simultaneously some operations.

Figure 17 is the figure of third electronic equipment 17 according to an embodiment of the present disclosure.Third electronic equipment 17 may include figure 1 the first external electronic device 102 or all or some component of the second external electronic device 104.

With reference to figure 17, third electronic equipment 17 includes first shell equipment 171 and second shell equipment 172.

First shell equipment 171 may include:The first installation part (or first fixing component) 17111, is configured to removable First electronic equipment (for example, first electronic equipment 5 of Fig. 6) is installed with unloading;With the second installation section (or second fixing component) 17112, it is configured to be removably installed the second electronic equipment (the second electronic equipment 6 of Fig. 6) on it.For example, the first peace Dress part 17111 can be the form of groove, and a part of of the first electronic equipment 5 can be assembled in the groove.Similarly, Two installation sections 17112 can also be the form of groove, and a part of of the second electronic equipment 6 can be assembled in the groove.

According to one embodiment, the first installation part 17111 may include one or more contacts.For example, when the first electronics When equipment 5 is mounted on the first installation part 17111, one or more contacts of the first electronic equipment 5 may be electrically connected to the One or more contacts of one installation section 17111.

Second installation section 17112 may also include one or more contacts.For example, when the second electronic equipment 6 is mounted on the When on two installation sections 17112, one or more contacts of the second electronic equipment 6 may be electrically connected to the second installation section 17112 one or more contacts.

By one or more contacts of the first installation part 17111, the first electronic equipment 5 can be provided with for filling The electric power of electricity or the data from third electronic equipment 17.Similarly, it is touched by the one or more of the second installation section 17112 Point, the second electronic equipment 6 can be provided with for the electric power of charging or the data from third electronic equipment 17.

First shell equipment 171 may include external interface (for example, connector) 1713.External equipment is (for example, service Device, smart phone, PC, PDA or access point) and the external interface 1713 of first shell equipment 171 can be by using electrical connection Device (such as cable, electric wire etc.) is electrically interconnected.For example, external interface 1713 can be USB connector.

By external interface 1713 electric power can be provided to external equipment (for example, power supply) to first shell equipment 171.

Can by external interface 1713 to first shell equipment 171 provide from external equipment (for example, smart phone or Data storage location) data.

First shell equipment 171 may include battery.For example, first shell equipment 171 can provide electric power from external equipment To charge for battery.Alternatively, the first electronic equipment 5 may be mounted at the first installation part 17111 of first shell equipment 171 On, and the battery of the first electronic equipment 5 can pass through the power charge of the battery of first shell equipment 171.Alternatively, the second electricity Sub- equipment 6 may be mounted on the second installation section 17112 of first shell equipment 171, and the battery of the second electronic equipment 6 The power charge of the battery of first shell equipment 171 can be passed through.

First shell equipment 171 may include that the radiator (for example, Wireless charging coil) for wireless charging, setting exist In each in the first installation part 17111 and the second installation section 17112.First electronic equipment 5 and the second electronic equipment 6 It may include the radiator for wireless charging.For example, the first electronic equipment 5 may be mounted at the of first shell equipment 171 On one installation section 17111, and the radiator for wireless charging can be used wirelessly to be provided from first shell equipment 171 Electric power gives the first electronic equipment 5, to charge the battery.Alternatively, the second electronic equipment 6 may be mounted at first shell equipment On 171 the second installation section 17112, and the radiator for wireless charging can be used from 171 nothing of first shell equipment The second electronic equipment 6 is supplied electrical power to line, to charge the battery.

Second shell equipment 172 can be with the substantially tubular shape shape for including channel 1721.For example, being equipped with first The first shell equipment 171 of electronic equipment 5 and the second electronic equipment 6 is inserted into the channel 1721 of second shell equipment 172, will First shell equipment 171 is stored in second shell equipment 172.

First shell equipment 171 may include sudden and violent first shell equipment 171 is couple to second shell equipment 172 completely The face 1712 of dew.Said external interface 1713 may be provided on face 1712.

Figure 18 is the figure of electronic equipment 1800 according to an embodiment of the present disclosure.Electronic equipment 1800 may include Figure 17's All or some component of third electronic equipment 17.

With reference to figure 18, electronic equipment 1800 includes telecommunication circuit 1810, sensor circuit 1830, at least one power interface 1860, battery 1870 or control circuit 1880.

Telecommunication circuit 1810 can be supported to receive audio data from external equipment.Telecommunication circuit 1810 may include Figure 17's External interface 1713.Using external interface, external equipment (for example, server, smart phone, PC, PDA or access point) can connect It is connected to electronic equipment 1800, and telecommunication circuit 1810 can receive audio data from external equipment.

Telecommunication circuit 1810 be configured such that audio data can be sent to Fig. 6 the first electronic equipment 5 and/ Or the second electronic equipment 6 of Fig. 6.Telecommunication circuit 1810 may include the contact for external interface.In the first electronic equipment 5 And/or second the Figure 17 that is coupled to electronic equipment 1800 of electronic equipment 6 installation section 17111 and 17112 in the case of, first Electronic equipment 5 and/or the second electronic equipment 6 may be electrically connected to the contact of the external interface in telecommunication circuit 1810.Use use In the contact of external interface, the first electronic equipment 5 and/or the second electronic equipment 6 are connected to electronic equipment 1800, and communicate electricity Audio data can be sent to the first electronic equipment 5 and/or the second electronic equipment 6 by road 1810.

Sensor circuit 1830 can export the first electronic equipment 5 of instruction and/or whether the second electronic equipment 6 is coupled to electricity The signal of sub- equipment 1800.

Sensor circuit 1830 may include proximity sensor.When the first electronic equipment 5 and the second electronic equipment 6 are coupled to The installation section 17111 of Figure 17 and when 17112, proximity sensor can export the first electronic equipment 5 of instruction and/or the second electronics Equipment 6 is coupled to the signal of electronic equipment 1800.

Sensor circuit 1830 may include Hall sensor.It is each in first electronic equipment 5 and the second electronic equipment 6 A may include the magnet of setting on the surface thereof.When the first electronic equipment 5 and/or the second electronic equipment 6 are coupled to Figure 17's Installation section 17111 and when 17112, Hall sensor can export the first electronic equipment 5 of instruction and/or the second electronic equipment 6 It is coupled to the signal of electronic equipment 1800.

Sensor circuit 1830 can be used for contact output the first electronic equipment 5 of instruction of external interface and/or the Two electronic equipments 6 are coupled to the signal of electronic equipment 1800.It is coupled to electricity in the first electronic equipment 5 and/or the second electronic equipment 6 In the case of the installation section 17111 of Figure 17 of sub- equipment 1800 and 17112, the first electronic equipment 5 and/or the second electronic equipment 6 may be electrically connected to the contact of the external interface in telecommunication circuit 1810.In the first electronic equipment 5 and/or the first electronic equipment 6 In the case of the contact for being electrically connected to the external interface in telecommunication circuit 1810, sensor circuit 1830 can export instruction first Electronic equipment 5 and/or the second electronic equipment 6 are coupled to the signal of electronic equipment 1800.

At least one power interface 1860 can support the charging of the battery being equipped in electronic equipment 1,800 1870.For example, External equipment is wired to the external interface 1713 of Figure 17 of at least one power interface 1860, and at least one electricity Source interface 1860 can receive electric power to charge to battery 1870 from external equipment.

At least one power interface 1860 can support the charging of the first electronic equipment 5 and/or the second electronic equipment 6.Example Such as, 17111 He of installation section of Figure 17 of electronic equipment 1800 is coupled in the first electronic equipment 5 and/or the second electronic equipment 6 In the case of 17112, the first electronic equipment 5 and/or the second electronic equipment 6 may be electrically connected to the contact for external interface. At least one power interface 1860 can be set by the contact for external interface to the first electronic equipment 5 and/or the second electronics Standby 6 power supply.

When the first electronic equipment 5 and/or the second electronic equipment 6 are all electronically connected to electronic equipment 1800, control circuit 1880 are configured such that the audio number from external equipment (for example, server, smart phone, PC, PDA or access point) According to simultaneously be sent to the first electronic equipment 5 and the second electronic equipment 6.For example, in the first electronic equipment 5 and the second electronic equipment In the case that first electronic equipment equipment 5 is electrically connected to electronic equipment 1800 between 6, control circuit 1880, which can be configured as, to be made It obtains the audio data from external equipment and is not sent to the first electronic equipment 5.

Control circuit 1880 can use sensor circuit 1830 confirm the first electronic equipment 5 and the second electronic equipment 6 with The status of electrically connecting of electronic equipment 1800.

Electronic equipment may include shell, be arranged in shell telecommunication circuit, at least one power supply being arranged in shell Interface and the control circuit for being electrically connected to telecommunication circuit and at least one power interface.In the electronic device, shell can wrap At least one fixing component is included, which is configured to the first earphone that receiving includes the first battery and/or including the second electricity Second earphone in pond.Control circuit can be configured as to be formed with external mobile electronic device by using telecommunication circuit and connect, To receive one or more contents from external mobile electronic device, and by one or more contents be sent to the first earphone and/or Second earphone.

Control circuit can be configured as receives electric power by using at least one power interface from external power supply, and leads to It crosses and uses at least one power interface by the power transmission of reception to the first earphone and/or the second earphone.

Figure 19 is the signaling diagram of the communication stream of system according to an embodiment of the present disclosure.

With reference to figure 19, system 19 includes the first electronic equipment 19-1, the second electronic equipment 19-2 and third electronic equipment 19- 3.First electronic equipment 19-1 may include all or some component of the first electronic equipment 5 of Fig. 1.Second electronic equipment 19-2 It may include all or some component of the second electronic equipment 6 of Fig. 6.Third electronic equipment 19-3 may include the third of Figure 17 All or some component of electronic equipment 17.

In step 1901, third electronic equipment 19-3 and the first electronic equipment 19-1 can be connected to each other.

In step 1903, third electronic equipment 19-3 and the second electronic equipment 19-2 can be connected to each other.

In step 1905, external electronic device (for example, server, smart phone, PC, PDA or access point) can incite somebody to action Audio data is sent to third electronic equipment 19-3.Audio data can be non-volatile audio data or volatibility audio number According to.Alternatively, audio data can be monaural audio data or stereo audio data.

In step 1907, the audio data received from external equipment can be sent to first by third electronic equipment 19-3 Electronic equipment 19-1.

In step 1909, the audio data received from external equipment can be sent to second by third electronic equipment 19-3 Electronic equipment 19-2.

In step 1913, the first electronic equipment 19-1 can store the audio number received from third electronic equipment 19-3 According to.For example, the non-volatile audio data received from third electronic equipment 19-3 can be stored in by the first electronic equipment 19-1 In the nonvolatile memory of first electronic equipment 19-1.Alternatively, the first electronic equipment 19-1 can will be from third electronic equipment The volatibility audio data that 19-3 is received is stored in the volatile memory of the first electronic equipment 19-1.

In step 1915, the second electronic equipment 19-2 can receive audio data from third electronic equipment 19-3.For example, The non-volatile audio data received from third electronic equipment 19-3 can be stored in the second electronics by the second electronic equipment 19-2 In the nonvolatile memory of equipment 19-2.Alternatively, the second electronic equipment 19-2 can will be received from third electronic equipment 19-3 Volatibility audio data be stored in the volatile memory of the second electronic equipment 19-2.

In step 1917, external equipment can provide electric power to third electronic equipment 19-3.

In step 1919, third electronic equipment 19-3 can use the electric power provided from external equipment to set third electronics The battery 1870 of Figure 18 of standby 19-3 charges.

In step 1921, third electronic equipment 19-3 can transmit charging power to the first electronic equipment 19-1.

In step 1923, third electronic equipment 19-3 can deliver charging power to the second electronic equipment 19-2.

In step 1925, the first electronic equipment 19-1 can use the charging power provided from third electronic equipment 19-3 Battery charging to the first electronic equipment 19-1.

In step 1927, the second electronic equipment 19-2 can use the charging power provided from third electronic equipment 19-3 Battery charging to the second electronic equipment 19-2.

The sequence for the step of Figure 19 can be changed, or may be performed simultaneously some operations.

Figure 20 is the flow chart of the operating method of the third electronic equipment 1800 of Figure 18 according to an embodiment of the present disclosure.Figure 21A to 21C is the second electronic equipment 6 according to an embodiment of the present disclosure for sensing the first electronic equipment 5 and Fig. 6 of Fig. 6 It is connected to the diagram of the circuit of the state of third electronic equipment 1800.External electronic device (for example, server, smart phone, PC, PDA or access point) external interface 1713 of Figure 17 can be used to be electrically connected to third electronic equipment 1800.

With reference to figure 20, audio data is received from external equipment, and in step 2001, control circuit 1880 can sense The audio data of reception.

In step 2003, control circuit 1880 can be confirmed that the first electronic equipment 5 of Fig. 6 and the second electronics of Fig. 6 are set Whether standby 6 be attached to third electronic equipment 1800.When the first electronic equipment 5 of confirmation and the second electronic equipment 6 are connected to third When electronic equipment 1800, control circuit 1880 can execute step 2005.

It is coupled to the installation section 17111 of Figure 17 of third electronic equipment 1800 in the first electronic equipment 5 and with second In the case that electronic equipment 6 is coupled to the installation section 17112 of Figure 17, the first electronic equipment 5 and the second electronic equipment 6 can electricity It is connected to third electronic equipment 1800.

With reference to figure 21A, third electronic equipment 1800 may include that first be arranged in the first installation part 17111 approaches Sensor 2105-1 and the second proximity sensor 2106-1 being arranged in the second installation section 17112.In the first electronic equipment 5 In the case of the first installation part 17111 for being coupled to third electronic equipment 1800, the first of third electronic equipment 1800 connects Nearly sensor 2105-1 can export the signal that the first electronic equipment 5 of instruction is electrically connected to third electronic equipment 1800.Second In the case that electronic equipment 6 is coupled to the second installation section 17112 of third electronic equipment 1800, third electronic equipment 1800 Second proximity sensor 2106-1 can export the signal that the second electronic equipment 6 of instruction is electrically connected to third electronic equipment 1800.

With reference to figure 21B, third electronic equipment 1800 may include the first Hall being arranged in the first installation part 17111 IC 2105-2 and the second Hall IC 2106-2 being arranged in the second installation section 17112.First electronic equipment 5 may include First magnet 501.Second electronic equipment 6 may include the second magnet 601.It is coupled to third electronics in the first electronic equipment 5 to set In the case of standby 1800 the first installation part 17111, the first Hall IC 2105-2 of third electronic equipment 1800 can be identified First magnet 501 of the first electronic equipment 5.It is coupled to the second mounting portion of third electronic equipment 1800 in the second electronic equipment 6 In the case of points 17112, the second Hall IC 2206-2 of third electronic equipment 1800 can identify the of the second electronic equipment 6 Two magnets 601.

With reference to figure 21C, third electronic equipment 1800 may include the first contact being arranged in the first installation part 17111 2105-3 and the second contact 2106-3 being arranged in the second installation section 17112.First electronic equipment 5 may include first tactile Point 502.Second electronic equipment 6 may include the second contact 602.It is coupled to third electronic equipment 1800 in the first electronic equipment 5 The first installation part 17111 in the case of, the first contact 2105-3 of third electronic equipment 1800 can be electrically connected to First contact 502 of one electronic equipment 5.It is coupled to the second installation section of third electronic equipment 1800 in the second electronic equipment 6 In the case of 17112, the second contact 2106-3 of third electronic equipment 1800 may be electrically connected to the second of the second electronic equipment 6 Contact 602.

In step 2005 (Figure 20), the audio data received from external equipment can be sent to by control circuit 1880 One electronic equipment 5 and the second external equipment 6.For example, the first electronic equipment 5 and the second electronic equipment 6 can store identical sound Frequency evidence.

The sequence for the step of Figure 20 can be changed, or may be performed simultaneously some operations.

Figure 22 is the signaling diagram of the communication stream of system according to an embodiment of the present disclosure.

With reference to figure 22, system 22 may include the first electronic equipment 22-1 and the second electronic equipment 22-2.First electronics is set Standby 22-1 may include all or some component of the first electronic equipment 5 of Fig. 6.Second electronic equipment 22-2 may include Fig. 6 The second electronic equipment 6 all or some component.

In step 2201, the first electronic equipment 22-1 and the second electronic equipment 22-2 can be connected to each other.

In step 2203, the first electronic equipment 22-1 can ask the same of audio data to the second electronic equipment 22-2 Step.For example, the first electronic equipment 22-1 can collect with the relevant information of audio data stored in memory, and it is synchronous Request may include the relevant information of audio data with collection.

In step 2205, the second electronic equipment 22-2 can be asked in response to the synchronization received from the first electronic equipment 22-1 It asks to determine the need for synchronizing.For example, being stored in the second electronic equipment 22-2 stores the first electronic equipment 22-1 all In the case of audio data, the second electronic equipment 22-2 can be determined and need not be synchronized.Alternatively, the second electronic equipment 22-2 only In the case of the part for being stored in the audio data in the first electronic equipment 22-1, the second electronic equipment 22-2 can be true Surely it synchronizes and is necessary.

When confirmation need not synchronize, in step 2207, the second electronic equipment 22-2 can be responded with confirmation result First electronic equipment 22-1.

When confirmation needs synchronous, the second electronic equipment 22-2, which can be used, confirms that result responds the first electronic equipment 22-1, And it can ask to send audio data in step 2209.

In step 2211, the first electronic equipment 22-1 can be according to the request from the second electronic equipment 22-2 to second Electronic equipment 22-2 sends audio data.

In step 2213, the second electronic equipment 22-2 can deposit the audio data received from the first electronic equipment 22-1 Storage is in memory.

In step 2215, the second electronic equipment 22-2 can send instruction to the first electronic equipment 22-1 and complete from first Electronic equipment 22-1 receives the response of audio data.After receiving from the first electronic equipment 22-1 and storing audio data, the Two electronic equipment 22-2 can have audio data that can be synchronous with the first electronic equipment 22-1.

Although it is not shown, the second electronic equipment 22-2 can ask audio data being synchronized to the first electronic equipment 21-1.First electronic equipment 22-1 can be determined the need in response to the synchronization request received from the second electronic equipment 22-2 It is synchronous, and when confirmation needs synchronous, can ask audio data being sent to the second electronic equipment 22-2.Electric from second After sub- equipment 22-2 receives and stores audio data, the first electronic equipment 22-1 can have same with the second electronic equipment 22-2 The audio data of step.

Step 2201 can be periodically carried out to 2215.

The sequence for the step of Figure 22 can be changed, or may be performed simultaneously some operations.

Figure 23 A are the signaling diagrams of the communication stream of system according to an embodiment of the present disclosure.

With reference to figure 23A, system 23a may include that the first electronic equipment 23-1a, the second electronic equipment 23-2a and audio carry For equipment 23-4a.First electronic equipment 23-1a may include all or some component of the first electronic equipment 5 of Fig. 6.Second Electronic equipment 23-2a may include all or some component of the second electronic equipment 6 of Fig. 6.Audio presenting device 23-4a can be with Including server.Alternatively, audio presenting device 23-4a may include such as portable phone, PC, PDA or access point (AP).

In step 2301a, the first electronic equipment 23-1a and the second electronic equipment 23-2a can be connected to each other.

In step 2303a, the first electronic equipment 23-1a can ask audio data being synchronized to the second electronic equipment 23-2a.For example, the first electronic equipment 23-1a can collect with the relevant information of audio data stored in memory, and Synchronization request may include the relevant information of audio data with collection.

In step 2305a, the second electronic equipment 23-2a can be same in response to being received from the first electronic equipment 23-1a Step asks to determine the need for synchronizing.For example, being stored in the first electronic equipment 23-1a in the second electronic equipment 23-2a storages In all audio datas in the case of, the second electronic equipment 23-2a can be determined and need not be synchronized.Alternatively, in the second electronics In the case that equipment 23-2a is only stored in a part for the audio data in the first electronic equipment 23-1a, the second electronics is set Standby 23-2a can determine that it is required to synchronize.

When confirmation need not synchronize, can be responded with confirmation result in step 2307a, the second electronic equipment 23-2a First electronic equipment 23-1a.

When confirmation needs synchronous, it can be used in step 2309a, the second electronic equipment 23-2a and confirm result response first Electronic equipment 23-1a.

In step 2311a, the second electronic equipment 23-2a and audio presenting device 23-4a can be connected to each other.

In step 2313a, the second electronic equipment 23-2a can ask to send audio number from audio presenting device 23-4a According to.

In step 2315a, audio presenting device 23-4a can according to the request from the second electronic equipment 23-2a to Second electronic equipment 23-2a sends audio data.

In step 2317a, audio number that the second electronic equipment 23-2a can will be received from audio presenting device 23-4a In memory according to storage.

In step 2319a, the second electronic equipment 23-2a can be sent to audio presenting device 23-4a instruction complete from Audio presenting device 23-4a receives the response of audio data.Received from audio presenting device 23-4a and storage audio data it Afterwards, the second electronic equipment 23-2a can have the audio data synchronous with the first electronic equipment 23-1a.

Although being not shown, the second electronic equipment 23-2a can ask audio data being synchronized to the first request electronics Equipment 23-1a.First electronic equipment 23-1a can be determined in response to the synchronization request received from the second electronic equipment 23-2a Whether need to synchronize, and when confirmation needs synchronous, can ask to provide device 23-4a transmission audio datas from audio. After audio presenting device 23-4a is received and stored audio data, the first electronic equipment 23-1a can have and the second electronics The audio data that equipment 23-2a is synchronized.

Step 2301a to 2319a can be periodically carried out.

The sequence for the step of Figure 23 A can be changed, or may be performed simultaneously some operations.

Figure 23 B are the signaling diagrams of the communication stream of system according to an embodiment of the present disclosure.

With reference to figure 23B, system 23b may include that the first electronic equipment 23-1b, the second electronic equipment 23-2b and audio carry For equipment 23-4b.First electronic equipment 23-1b may include all or some component of the first electronic equipment 5 of Fig. 6.Second Electronic equipment 23-2b may include all or some component of the second electronic equipment 6 of Fig. 6.Audio presenting device 23-4b can be with Including server.Alternatively, audio presenting device 23-4b may include such as portable phone, PC, PDA or AP.

In step 2301b, audio presenting device 23-4b and the first electronic equipment 23-1b can be connected to each other.

In step 2303b, audio presenting device 23-4b and the second electronic equipment 23-2b can be connected to each other.

In step 2305b, audio presenting device 23-4b can ask the first electronic equipment 23-1b to send and audio number According to relevant synchronizing information.

In step 2307b, the first electronic equipment 23-1b can collect related to audio data stored in memory Information, and the first synchronizing information including collected information can be sent to audio presenting device 23-4b.

In step 2309b, audio presenting device 23-4b can ask the second electronic equipment 23-2b to send and audio number According to relevant synchronizing information.

In step 2311b, the second electronic equipment 23-2b can collect related to audio data stored in memory Information, and the second synchronizing information including collected information can be sent to audio presenting device 23-4b.

In step 2313b, audio presenting device 23-4b can determine first received from the first electronic equipment 23-1b Whether the second synchronizing information that is synchronous and being received from the second electronic equipment 23-2b is consistent with each other.

In the case of the first synchronizing information and the second synchronizing information inconsistent each other, audio presenting device 23-4b can be with Audio data is sent to the first electronic equipment 23-1b in step 2315b.In step 2317b, audio presenting device 23- Audio data can be sent to the second electronic equipment 23-2b by 4b.

In step 2319b, audio number that the first electronic equipment 23-1b can will be received from audio presenting device 23-4b In memory according to storage.After receiving from audio presenting device 23-4b and storing audio data, the first electronic equipment 23- 1b can have audio data that can be synchronous with the second electronic equipment 23-2b.Alternatively, in step 2321b, the second electronic equipment 23-2b can store the audio data received from audio presenting device 23-4b in memory.From audio presenting device After 23-4b is received and stored audio data, the second electronic equipment 23-2b can have synchronous with the first electronic equipment 23-1b Audio data.

Step 2301b to 2321b can be periodically carried out.

The sequence of the step shown in Figure 23 B can be changed, or may be performed simultaneously some operations.

Figure 24 is the figure of system according to an embodiment of the present disclosure.Figure 25 is audio data according to an embodiment of the present disclosure Download flow figure.In addition, Figure 26 is the steaming transfer flow chart of audio data according to an embodiment of the present disclosure.

With reference to shown in figure 24, system 24 may include server 2410, audio presenting device 2420 and at least one audio Reproduction equipment 2430.

Server 2410 may include web/ Wireless Application Protocol (wap) server 2411, download server 2412 and stream Server 2413.Web/wap servers 2411 can support web or wap connections.Download server 2412 can be supported to download and be taken Business.Streaming server 2413 can support streaming service.

Audio presenting device 2420 (for example, portable phone, PC, PDA or AP) may include web/wap browsers 2421, client 2422, streaming client 2423 and wireless communication protocol 2424 are downloaded.Web/wap browsers 2421 can be rung Content-browsing should be supported in web/wap servers 2411.Downloading client 2422 can support in response to download server 2412 Download service.Streaming client 2423 can support streaming service in response to streaming server.In addition, channel radio Letter agreement 2424 can be supported steaming transfer or the data transfer of download at least one audio reproducing system 2430.

Audio reproducing system 2430 may include wireless communication protocol 2431, correspond to the nothing of audio presenting device 2420 Line communication protocol 2424, and can support streaming service and download service.

Audio reproducing system 2430 may include Fig. 6 the first external electronic device 5 or the second external electronic device 6 it is complete Portion or some components.Alternatively, audio reproducing system 2430 may include all or some component of the electronic equipment 700 of Fig. 7.

With reference to figure 25, in step 2501, audio presenting device 2420 can be inputted via user and be browsed using web/wap Device 2421 is connected to the web/wap servers 2411 of server 2410.The web/wap browsers 2421 of audio presenting device 2420 Audio content can be browsed after being connected to web/wap servers 2411 via user's input.In addition, audio presenting device 2420 web/wap browsers 2421 can select the sound for download service in the audio content for inputting browsing via user Frequency file.

In step 2503, web/wap servers 2411 can be by the address of the audio file selected in step 2501 Uniform resource locator (URL) is sent to audio presenting device 2420.The web/wap browsers 2421 of audio presenting device 2420 The address URL of audio file of the sound from web/wap servers 2411 can be received.

In step 2505, the web/wap browsers 2421 of audio presenting device 2420 can will connect from server 2410 The address URL of the audio file of receipts, which is transmitted to, downloads client 2422.Downloading client 2422 can be by the address of audio file URL is transmitted to the download server 2412 of server 2410, and can ask download service.

In step 2507, the download server 2412 of server 2410 can be received from audio presenting device 2420 under The request of service is carried, and can be generated and the relevant download audio data of corresponding audio file (or non-volatile audio number According to).The download server 2412 of server 2410 can will download audio data and be sent to audio presenting device 2420.

In step 2509, the download client 2422 of audio presenting device 2420 can be received from server 2410 to be downloaded Audio data.The download client 2422 of audio presenting device 2420 can will be from server using wireless communication protocol 2424 The 2410 download audio datas received are sent to audio reproducing system 2430.Audio reproducing system 2430 can use wireless communication Agreement 2431 receives from audio presenting device 2420 and downloads audio data.

In step 2511, download audio number that audio reproducing system 2430 can will be received from audio presenting device 2420 In memory according to storage.

The sequence for the step of Figure 25 can be changed, or may be performed simultaneously some operations.

Figure 26 is the signaling diagram of the steaming transfer stream of audio data according to an embodiment of the present disclosure.

With reference to figure 26, in step 2601, audio presenting device 2420 can be inputted via user and be browsed using web/wap Device 2421 is connected to the web/wap servers 2411 of server 2410.The web/wap browsers 2421 of audio presenting device 2420 Audio content can be browsed after being connected to web/wap servers 2411 via user's input.In addition, audio presenting device 2420 web/wap browsers 2421 selection can be used to flow the audio serviced in the audio content for inputting browsing via user File.

In step 2603, web/wap servers 2411 can be by the address of the audio file selected in step 2601 URL is sent to audio presenting device 2420.The web/wap browsers 2421 of audio presenting device 2420 can be received from web/ The address URL of the audio file of wap servers 2411.

In step 2605, the web/wap browsers 2421 of audio presenting device 2420 can will connect from server 2410 The address URL of the audio file of receipts is transmitted to stream client 2423.Stream client 2423 can transmit the address URL of audio file To the streaming server 2413 of server 2410, and stream can be asked to service.

In step 2607, the streaming server 2413 of server 2410 can receive convection current clothes from audio presenting device 2420 The request of business, and can generate and the relevant streaming audio data of corresponding audio file (or volatibility audio data).Service Streaming audio data can be sent to audio presenting device 2420 by the streaming server 2413 of device 2410.

In step 2609, the stream client 2423 of audio presenting device 2420 can receive streaming sound from server 2410 Frequency evidence.The streaming client 2423 of audio presenting device 2420 can will be from server using wireless communication protocol 2424 2410 streaming audio datas received are transferred to audio reproducing system 2430.Audio reproducing system 2430 can be by using wireless Communication protocol 2431 receives streaming audio data from audio presenting device 2420.Flowing reproduction equipment 2430 can be by the stream audio of reception Data are stored in volatile memory.

In step 2611, audio reproducing system 2430 can reproduce the streaming audio received from audio presenting device 2420 Data.

The sequence for the step of Figure 26 can be changed, or may be performed simultaneously some operations.

Figure 27 is the signaling diagram of the communication stream of system according to an embodiment of the present disclosure.

With reference to figure 27, system 27 may include that the first electronic equipment 27-1, the second electronic equipment 27-2 and the 4th electronics are set Standby 27-4.First electronic equipment 27-1 may include all or some component of the first electronic equipment 5 of Fig. 6.Second electronics is set Standby 27-2 may include all or some component of the second electronic equipment 6 of Fig. 6.4th electronic equipment 27-4 may include Figure 24 Audio presenting device 2420 all or some component (for example, server, smart phone, PC, PDA or access point).

In step 2701, the 4th electronic equipment 27-4 and the first electronic equipment 27-1 can be connected to each other.

In step 2703, the 4th electronic equipment 27-4 and the second electronic equipment 27-2 can be connected to each other.

In step 2705, the 4th electronic equipment 27-4 can receive the request of the transmission to audio data.Transmission request can To be caused by user's input.Audio data can be non-volatile audio data or volatibility audio data.Alternatively, audio data Can be monaural audio data or stereo audio data.

In step 2707 and 2709, audio data can be sent to the first electronic equipment by the 4th electronic equipment 27-4 27-1 and the second electronic equipment 27-2.

First electronic equipment 27-1 can receive the audio data sent from the 4th electronic equipment 27-4.First electronic equipment 27-1 can be by the non-volatile audio data storage received from the 4th electronic equipment 27-4 in the nonvolatile memory.Or The volatibility audio data received from the 4th electronic equipment 27-4 can be stored in volatibility and deposited by person, the first electronic equipment 27-1 In reservoir.

Second electronic equipment 27-2 can receive the audio data sent from the 4th electronic equipment 27-4.Second electronic equipment 27-2 can be by the non-volatile audio data storage received from the 4th electronic equipment 27-4 in the nonvolatile memory.Or The volatibility audio data received from the 4th electronic equipment 27-4 can be stored in volatibility and deposited by person, the second electronic equipment 27-2 In reservoir.

The sequence for the step of Figure 27 can be changed, or may be performed simultaneously some operations.

Figure 28 is the flow chart of the operating method of the 4th electronic equipment 27-4 of Figure 27 according to an embodiment of the present disclosure.Figure 29A to 29C is the figure of the method for description Figure 28 according to an embodiment of the present disclosure.4th electronic equipment 27-4 may include Figure 24 Audio presenting device 2420 all or some component.

With reference to figure 28 and Figure 29 A to 29C, the audio generated to being stored in the 4th electronic equipment 27-4 is inputted by user The transmission of data is asked, and in step 2801, the processor of the 4th electronic equipment 27-4 can sense generated transmission Request.

In step 2803, the first electronic equipment 5 and Fig. 6 of Fig. 6 can be confirmed in the processor of the 4th electronic equipment 27-4 The second electronic equipment 6 whether be connected to the 4th electronic equipment 27-4.

As shown in figure 29 a the first electronic equipment 5 and the second electronic equipment 6 be connected to the feelings of the 4th electronic equipment 27-4 Under condition, audio data can be sent to the first electronic equipment 5 and the second electronic equipment by the processor of the 4th electronic equipment 27-4 6.For example, the first electronic equipment 5 and the second electronic equipment 6 can be received and be stored from the identical of the 4th electronic equipment 27-4 Audio data.

Each in first electronic equipment 5 and the second electronic equipment 6 can independently reproduce stored in memory Identical audio data.For example, (the bimodulus when the first electronic equipment 5 and the second electronic equipment 6 are mounted on the opposite ear of user Formula), the first electronic equipment 5 can export a part of stereo audio data stored in memory by its loud speaker, and Second electronic equipment 6 can export a part for identical stereo audio data stored in memory by its loud speaker. This can provide the stereosonic chance of experience to the user.

First electronic equipment 5 and the second electronic equipment 6 can by using short range communication (for example, WiFi, bluetooth, NFC or GNSS) or cellular communication is connected to the 4th electronic equipment 27-4.

Only one in the first electronic equipment 5 and the second electronic equipment 6 as shown in Figure 29 B and/or Figure 29 C is connected to In the case of 4th electronic equipment 27-4, audio data can be sent to the first electronics by the processor of the 4th electronic equipment 27-4 Equipment 5 and the second electronic equipment 6.For example, in the case where the first electronic equipment 5 and/or the second electronic equipment 6 are OFF states, 4th electronic equipment 27-4 may be coupled to the first electronic equipment 5 and/or the second electronic equipment 6.The first electronic equipment 5 and/ Or second electronic equipment 6 be spaced apart be difficult to each other establish communication connection distance in the case of, the 4th electronic equipment 27-4 It is likely difficult to be connected to the first electronic equipment 5 and/or the second electronic equipment 6.

The sequence for the step of Figure 29 can be changed, or may be performed simultaneously some operations.

The method of operation electronic equipment may include receiving the biography for being stored in the audio data in the memory of electronic equipment Defeated request;Confirm whether the first external equipment and the second external equipment are connected to electronic equipment;When confirm the first external equipment and When at least one of second external equipment is not attached to electronic equipment, keep transmission request invalid;And outside confirmation first When equipment and the second external equipment are connected to electronic equipment, audio data is sent to outside the first external equipment and second and is set It is standby.

Figure 30 is the signaling diagram of the communication stream of system according to an embodiment of the present disclosure.

With reference to figure 30, system 30 may include the first electronic equipment 30-1, the second electronic equipment 30-2, third electronic equipment 30-3 and the 4th electronic equipment 30-4.First electronic equipment 30-1 may include all or some of the first electronic equipment 5 of Fig. 6 Component.Second electronic equipment 30-2 may include all or some component of the second electronic equipment 6 of Fig. 6.Third electronic equipment 30-3 may include all or some component of the third electronic equipment 1800 of Figure 18.4th electronic equipment 30-4 may include figure All or some component (for example, server, smart phone, PC, PDA or access point) of 24 audio presenting device 2420.

In step 3001, the 4th electronic equipment 30-4 and third electronic equipment 30-3 can be connected to each other.

In step 3003, third electronic equipment 30-3 and the first electronic equipment 30-1 can be connected to each other.

In step 3005, third electronic equipment 30-3 and the second electronic equipment 30-2 can be connected to each other.

In step 3007, the 4th electronic equipment 30-4 can receive the request of the transmission to audio data.Transmission request can To be caused by user's input.

In step 3009, audio data can be sent to third electronic equipment 30-3 by the 4th electronic equipment 30-4.

In step 3011 and 3013, audio that third electronic equipment 30-3 can will be received from the 4th electronic equipment 30-4 Data are sent to the first electronic equipment 30-1 and the second electronic equipment 30-2.

First electronic equipment 30-1 can receive the audio data sent from third electronic equipment 30-3.First electronic equipment 30-1 can store the audio data received from third electronic equipment 30-3 in memory.

Second electronic equipment 30-2 can receive the audio data sent from third electronic equipment 30-3.Second electronic equipment 30-2 can store the audio data received from third electronic equipment 30-3 in memory.

The sequence for the step of Figure 30 can be changed, or may be performed simultaneously some operations.

Figure 31 is the flow chart of the operating method of the 4th electronic equipment 30-4 of Figure 30 according to an embodiment of the present disclosure.The Four electronic equipment 30-4 may include all or some component of the audio presenting device 2420 of Figure 24.

With reference to figure 31, in step 3101, the processor of the 4th electronic equipment 30-4 may be coupled to the third electricity of Figure 18 Sub- equipment 1800.

In the case where asking the transmission for being stored in the audio data in the memory of the 4th electronic equipment 30-4, processing Device can sense this point in step 3103.

In response to the transmission request to audio data, the processor of the 4th electronic equipment 30-4 can be confirmed the first of Fig. 6 Whether the second electronic equipment 6 of electronic equipment 5 and Fig. 6 are electrically connected to third electronic equipment 1800.

It is coupled to installation section 17111 and the second electronics of Figure 17 of third electronic equipment 1800 in the first electronic equipment 5 In the case that equipment 6 is coupled to the installation section 17112 of Figure 17 of third electronic equipment 1800, the first electronic equipment 5 and second Electronic equipment 6 may be electrically connected to third electronic equipment 1800.

When applying the step of Figure 21 A to Figure 23 A, third electronic equipment 1800 can be sent to the 4th electronic equipment 30-4 Indicate that the first electronic equipment 5 and the second electronic equipment 6 are electrically connected to the signal of the state of third electronic equipment 1800.

Confirm that the first electronic equipment 5 and the second electronic equipment 6 are electrically connected to third electronic equipment 1800 in step 3105 In the case of, audio data can be sent to third electronic equipment by the processor of the 4th electronic equipment 30-4 in step 3107 1800。

Although it is not shown, the audio data that third electronic equipment 1800 can will be received from the 4th electronic equipment 30-4 It is sent to the first electronic equipment 5 and the second electronic equipment 6.For example, the first electronic equipment 5 and the second electronic equipment 6 can receive And store the identical audio data sent from the 4th electronic equipment 30-4.

The sequence for the step of Figure 31 can be changed, or may be performed simultaneously some operations.

Figure 32 A are the signaling diagrams of the communication process of system according to an embodiment of the present disclosure.

With reference to figure 32A, system 32a may include the first electronic equipment 32-1a, the second electronic equipment 32-2a and the 4th electricity Sub- equipment 32-4a.First electronic equipment 32-1a may include all or some component of the first electronic equipment 5 of Fig. 6.Second Electronic equipment 32-2a may include all or some component of the second electronic equipment 6 of Fig. 6.4th electronic equipment 32-4a can be with All or some group of audio presenting device 2420 (for example, server, smart phone, PC, PDA or access point) including Figure 24 Part.

In step 3201a, the 4th electronic equipment 32-4a and the first electronic equipment 32-1a can be connected to each other.

In step 3203a, the 4th electronic equipment 32-4a and the second electronic equipment 32-2a can be connected to each other.

In step 3205a, the 4th electronic equipment 32-4a can be received and the relevant user of the rendering requests of audio data Input.

In step 3207a, audio data can be sent to the first electronic equipment 32-1a by the 4th electronic equipment 32-4a.

In step 3209a, the 4th electronic equipment 32-4a can be by voice data reproducing to the second electronic equipment 32-2a.

When carrying out the audio data of rendering requests to it and storing in the 4th electronic equipment 32-4a, the 4th electronic equipment Audio data can be sent to the first electronic equipment 32-1a and/or the second electronic equipment 32-2a by 32-4a.

4th electronic equipment 32-4a can be received as it from the server 2410 of Figure 24 and send out the audio number of rendering requests According to audio data can be sent to the first electronic equipment 32-1a and/or the second electronic equipment 32-2a.

First electronic equipment 32-1a can receive the audio data sent from the 4th electronic equipment 32-4a.First electronics is set Standby 32-1a can be by the audio data storage received from the 4th electronic equipment 32-4a in memory.

Second electronic equipment 32-2a can receive the audio data sent from the 4th electronic equipment 32-4a.Second electronics is set Standby 32-2a can be by the audio data storage received from the 4th electronic equipment 32-4a in memory.

In step 3215a, when confirmation the first electronic equipment 32-1a and the second electronic equipment 32-2a is in relatively close When the position of user, double mode can be arranged in the first electronic equipment 32-1a and the second electronic equipment 32-2a.For example, in the first electricity In the case that sub- equipment 32-1a and the second electronic equipment 32-2a is worn on the opposing ear of user, the first electronic equipment 32- 1a and the second electronic equipment 32-2a can enter double mode.

In step 3217a, the first electronic equipment 32-1a can reproduce audio data stored in memory.For example, In the case where audio data stored in memory is monaural audio data, the first electronic equipment 32-1a can be decoded Monaural audio data can pass through its loud speaker exports audio signal (mono reproduction) to obtain audio signal.Or Person, in the case where audio data stored in memory is stereo audio data, the first electronic equipment 32-1a can be solved First audio data of code stereo audio data can export the to obtain the first audio signal by its loud speaker One audio signal (stereophonics).

In step 3219a, the second electronic equipment 32-2a can reproduce audio data stored in memory.For example, In the case where audio data stored in memory is monaural audio data, the second electronic equipment 32-2a can be decoded Monaural audio data can pass through its loud speaker exports audio signal (mono reproduction) to obtain audio signal.Or Person, in the case where audio data stored in memory is stereo audio data, the second electronic equipment 32-2a can be solved The second audio data of code stereo audio data can export the to obtain the second audio signal by its loud speaker Two audio signals (stereophonics).

It is (double on the opposite ear that first electronic equipment 32-1a and the second electronic equipment 32-2a is mounted on user Pattern), the first electronic equipment 32-1a can export the first audio signal, and the second electronic equipment 32-2a by its loud speaker The second audio signal can be exported by its loud speaker.This can provide the stereosonic chance of experience to the user.

The sequence for the step of Figure 32 A can be changed, or may be performed simultaneously some operations.

Figure 32 B are the signaling diagrams of the communication stream of system according to an embodiment of the present disclosure.

With reference to figure 32B, system 32b may include the first electronic equipment 32-1b, the second electronic equipment 32-2b and the 4th electricity Sub- equipment 32-4b.First electronic equipment 32-1b may include all or some component of the first electronic equipment 5 of Fig. 6, or can With all or some component of the second electronic equipment 6 including Fig. 6.4th electronic equipment 32-4b may include the audio of Figure 24 All or some component of equipment 2420 (for example, server, smart phone, PC, PDA or access point) is provided.

In step 3201b, the 4th electronic equipment 32-4b and the first electronic equipment 32-1b can be connected to each other.

In step 3203b, the 4th electronic equipment 32-4b and the second electronic equipment 32-2b can be connected to each other.

In step 3205b, the 4th electronic equipment 32-4b can be received and the relevant user of the rendering requests of audio data Input.

In step 3207b, the 4th electronic equipment 32-4b can be set to the first electronic equipment 32-1b and/or the second electronics Standby 32-2b sends the request for confirming use pattern.

First electronic equipment 32-1b and/or the second electronic equipment 32-2b could be provided as double mode.For example, when confirming the When one electronic equipment 32-1b and the second electronic equipment 32-2b are positioned in relatively close the position of user, the first electronic equipment 32-1b Double mode can be set with the second electronic equipment 32-2b.

In step 3209b, the first electronic equipment 32-1b and/or the second electronic equipment 32-2b can be set to the 4th electronics Standby 32-4b sends the response that instruction use pattern is double mode.

It is the response of double mode corresponding to instruction use pattern, the 4th electronic equipment 32-4b can be in step 3211b It is decoded as it and makes the audio data of rendering requests, to obtain audio signal.For example, audio data can be monophonic audio number According to the 4th electronic equipment 32-4b can be with decoding mono audio data to obtain audio signal.Alternatively, audio data can be Stereo audio data, the 4th electronic equipment 32-4b can be with the first audio datas of decoding stereoscopic sound audio data to obtain One audio signal, and can be with the second audio data of decoding stereoscopic sound audio data to obtain the second audio signal.

In step 3213b, audio data can be sent to the first electronic equipment 32-1b by the 4th electronic equipment 32-4b. In step 3215b, audio data can be sent to the second electronic equipment 32-2b by the 4th electronic equipment 32-4b.For example, the Four electronic equipment 32-4b can send to the first electronic equipment 32-1b and the second electronic equipment 32-2b and pass through decoding mono sound Frequency according to and obtain audio signal.Alternatively, the 4th electronic equipment 32-4b can be sent to the first electronic equipment 32-1b from vertical First audio signal of body sound audio data acquisition, and can be sent to the second electronic equipment 32-2b and pass through decoding stereoscopic sound The second audio signal acquired in audio data.

In step 3217b, the first electronic equipment 32-1b can be exported from electronic equipment 32-4b by its loud speaker and be connect The audio signal of receipts.In step 3219b, the second electronic equipment 32-2b can be exported from the 4th electronics by its loud speaker and be set The audio signal that standby 32-4b is received.For example, the first electronic equipment 32-1b can export obtained from stereo audio data One audio signal, the second electronic equipment 32-2b can export the second audio letter obtained by decoding stereoscopic sound audio data Number.This can provide the stereosonic chance of experience to the user.

The sequence for the step of Figure 32 B can be changed, or may be performed simultaneously some operations.

Figure 32 C are the signaling diagrams of the communication stream of system according to an embodiment of the present disclosure.

With reference to figure 32C, system 32c may include the 4th electronic equipment 32-4c and external electronic device 32-12c.4th electricity Sub- equipment 32-4c may include the whole of the audio presenting device 2420 (for example, smart phone, PC, PDA or access point) of Figure 24 Or some components.Alternatively, external electronic device 32-12c may include the first electronic equipment 5 or the second electronic equipment 6 of Fig. 6 All or some component.

In step 3201c, the 4th electronic equipment 32-4c and external electronic device 32-12c can be connected to each other.

In step 3203c, the 4th electronic equipment 32-4c can be received and the relevant user of the rendering requests of audio data Input.

In step 3205c, the 4th electronic equipment 32-4c can be sent to external electronic device 32-12c to be made for confirming With the request of pattern.

External electronic device 32-12c may be at non-double mode.For example, external electronic device 32-12c can be with user Body separation.

In step 3207c, external electronic device 32-12c can send instruction to the 4th electronic equipment 32-4c and use mould Formula is the response of non-double mode.

It is the response of non-double mode corresponding to instruction use pattern, the 4th electronic equipment 32-4c can in step 3209c The audio data of rendering requests is made to be decoded as it, to obtain audio signal.For example, audio data can be monophonic audio Data, the 4th electronic equipment 32-4c can be with decoding mono audio datas to obtain audio signal.Alternatively, audio data can be with It is stereo audio data, the 4th electronic equipment 32-4c can decode entire stereo audio data to obtain audio signal.

In step 3211c, audio signal can be sent to external electronic device 32- by the 4th electronic equipment 32-4c 12c。

In step 3213c, external electronic device 32-12c can be exported by its loud speaker from the 4th electronic equipment 32- The audio signal that 4c is received.

The sequence for the step of Figure 32 B can be changed, or may be performed simultaneously some operations.

As described above, system 9a-f, 10a and 10b of Fig. 9 A-9F and Figure 10 A and 10B are (hereinafter referred to as " first System ") audio content can be exported independently of external equipment (for example, server, smart phone, PC, PDA or AP) respectively.Such as It is upper described, system 32a, 32b and the 32c of system 14a and 14b and Figure 32 A to 32C of Figure 14 A and 14B.(hereinafter, referred to " second system ") it can be interacted with external equipment to export the audio content for providing (steaming transfer) from external equipment.

It is depositing in case of an audio content, can provide there is no attachable external equipment and in the first system At least one of the first system rather than second system.

In the case where being capable of providing audio content there are attachable external equipment and external equipment, can be provided At least one of two system rather than the first system.

Furthermore, it is possible to combine the first system and second system to form combined system.

Figure 33 is the signaling diagram of the communication process of system according to an embodiment of the present disclosure.System 33 may include the 4th electricity Sub- equipment 33-4 and external electronic device 3300.4th electronic equipment 33-4 may include the audio presenting device 2420 of Figure 24 All or some component.External electronic device 3300 may include all or some component of the electronic equipment 700 of Fig. 7.

In step 3301, the 4th electronic equipment 33-4 and third electronic equipment 3300 can be connected to each other.

In step 3303, the 4th electronic equipment 33-4 can receive the reproduction to audio data stored in memory Request.

In response to the rendering requests to audio data, in step 3305, the 4th electronic equipment 33-4 can be to external electrical Sub- equipment 3300 sends the request to battery remaining power information.

In step 3307, external electronic device 3300 can be set using battery remaining power information to respond the 4th electronics Standby 33-4.

In step 3309, based on the battery remaining power information received from external electronic device 3300, the 4th electronics is set Standby 33-4 can be confirmed that the battery remaining power of external electronic device 3300 is less than critical value.

In the case where confirming that the battery remaining power of external electronic device 3300 is less than critical value, in step 3311, 4th electronic equipment 33-4 can be decoded audio data to obtain audio signal.

In step 3313, audio signal can be sent to external electronic device 3300 by the 4th electronic equipment 33-4.

In step 3315, external electronic device 3300 can be exported from the 4th electronic equipment 33-4 by its loud speaker and be connect The audio signal of receipts.For example, if the battery remaining power of external electronic device 3300 is less than critical value, external electronic device 3300 can export the audio signal received from the 4th electronic equipment 33-4 by its loud speaker is stored in memory without decoding In identical audio data.

The sequence for the step of Figure 33 can be changed, or may be performed simultaneously some operations.

Figure 34 is the signaling diagram of the communication stream of system according to an embodiment of the present disclosure.System 34 may include the 4th electronics Equipment 34-4 and external electronic device 3400.4th electronic equipment 34-4 may include the complete of the audio presenting device 2420 of Figure 24 Portion or some components.External electronic device 3400 may include all or some component of the electronic equipment 700 of Fig. 7.

In step 3401, the 4th electronic equipment 34-4 and external electronic device 3400 can be connected to each other.

In step 3403, the 4th electronic equipment 34-4 can receive the reproduction to audio data stored in memory Request.

In response to the rendering requests to audio data, in step 3405, the 4th electronic equipment 34-4 can be to external electrical Sub- equipment 3400 sends the request to battery remaining power information.

In step 3407, external electronic device 3400 can be set using battery remaining power information to respond the 4th electronics Standby 34-4.

In step 3409, based on the battery remaining power information received from external electronic device 3400, the 4th electronics is set Standby 34-4 can be confirmed that the battery remaining power of external electronic device 3400 is more than critical value.

In the case where confirming that the battery remaining power of external electronic device 3400 is more than critical value, in step 3411, 4th electronic equipment 34-4 can will be sent to external electronic device 3400 for the rendering requests of identical audio data.

In step 3413, external electronic device 3400 can reproduce identical audio data stored in memory.Example Such as, external electronic device 3400 can decode identical audio data to obtain audio signal, and can pass through its loud speaker Exports audio signal.

The sequence for the step of Figure 34 can be changed, or may be performed simultaneously some operations.

Figure 35 is the signaling diagram of the communication stream of system according to an embodiment of the present disclosure.System 35 may include the first electronics Equipment 35-1, the second electronic equipment 35-2 and the 4th electronic equipment 35-4.First electronic equipment 35-1 may include the first of Fig. 6 All or some component of electronic equipment 5.Second electronic equipment 35-2 may include the second electronic equipment 6 of Fig. 6 whole or Some components.4th electronic equipment 35-4 may include all or some component of the audio presenting device 2420 of Figure 24.

In step 3501, the 4th electronic equipment 35-4 and the first electronic equipment 35-1 can be connected to each other.

In step 3503, the 4th electronic equipment 35-4 and the second electronic equipment 35-2 can be connected to each other.

In step 3505, the 4th electronic equipment 35-4 can receive the reproduction to audio data stored in memory Request.

In response to the rendering requests to audio data, in step 3507, the 4th electronic equipment 35-4 can be to the first electricity Sub- equipment 35-1 sends and is carried out to it relevant synchronizing signal of audio data of rendering requests.In step 3009, the 4th electricity Synchronizing signal can be sent to the second electronic equipment 35-2 by sub- equipment 35-4.

In the case where being stored in the first electronic equipment 35-1 corresponding to the audio data of synchronizing signal, in step 3511 In, the first electronic equipment 35-1 can will be sent to the 4th electronic equipment 35 with the relevant synchronous enabled response of synchronizing signal, or In step 3513, the first electronic equipment 35-1 can will be sent to the 4th electronics with the relevant synchronization disabled response of synchronizing signal Equipment 35-4.

In response to synchronizing signal, in step 3515, the first electronic equipment 35-1 can reproduce phase stored in memory Same audio data.For example, in the case where audio data is monaural audio data, the first electronic equipment 35-1 can decode list Channel audio data can pass through its loud speaker exports audio signal (mono reproduction) to obtain audio signal.Alternatively, In the case where audio data is stereo audio data, the first electronic equipment 35-1 can be with the one of decoding stereoscopic sound audio data Partly (for example, corresponding to first audio data of the first electronic equipment 35-1) is to obtain the first audio signal, and can lead to It crosses its loud speaker and exports the first audio signal (stereophonics).

In response to the synchronization disabled signal from the second electronic equipment 35-2, in step 3517, the 4th electronic equipment 35- 4, which can be decoded as it, makes the audio data of rendering requests, to obtain audio signal.For example, being stereo sound in audio data For frequency in the case of, the 4th electronic equipment 35-4 can be with a part for decoding stereoscopic sound audio data (for example, corresponding to second The second audio data of electronic equipment 35-2) to obtain the second audio signal.

In step 3519, acquired audio signal can be sent to the second electronic equipment by the 4th electronic equipment 35-4 35-2。

In step 3523, the second electronic equipment 34-2 can be exported from the 4th electronic equipment 35-4 by its loud speaker and be connect The audio signal of receipts.It is received from the 4th electronic equipment 34-4 for example, the second electronic equipment 34-2 can be exported by its loud speaker Audio signal, without being decoded to audio data.

For example, the first electronic equipment 34-1 can export first by decoding stereoscopic sound audio data by its loud speaker Audio data and the first audio signal obtained, and the second electronic equipment 34-2 can be received from the 4th electronic equipment 35-4 it is logical The second audio signal that the second audio data of decoding stereoscopic sound audio data obtains is crossed, and can be exported by its loud speaker Second audio signal.This can provide the stereosonic chance of experience to the user.

The sequence for the step of Figure 35 can be changed, or may be performed simultaneously some operations.

Figure 36 is the signaling diagram of the communication stream of system according to an embodiment of the present disclosure.System 36 may include the first electronics Equipment 36-1 and the second electronic equipment 36-2.First electronic equipment 36-1 may include the first electronic equipment 5 of Fig. 6 whole or Some components.Second electronic equipment 36-2 may include all or some component of the second electronic equipment 6 of Fig. 6.

In step 3601, the first electronic equipment 36-1 and the second electronic equipment 36-2 can be connected to each other.

In step 3603, the first electronic equipment 36-1 can receive the reproduction to audio data stored in memory Request.

In step 3605, the first electronic equipment 36-1 and the second electronic equipment 36-2 can be believed with communicating battery residual capacity Breath.

Based on the exchange of battery remaining power information, in step 3607, the first electronic equipment 36-1 can be confirmed first The battery remaining power of electronic equipment 36-1 is more than the battery remaining power of the second electronic equipment 36-2.

In step 3609, the second electronic equipment 36-2 can be confirmed that the battery remaining power of the second electronic equipment 36-2 is small In the battery remaining power of the first electronic equipment 36-1.

In battery remaining power of the battery remaining power of the second electronic equipment 36-2 less than the first electronic equipment 36-1 In the case of, in step 3611, the second electronic equipment 36-2 can be from the first electronic equipment 36-1 request decodings.

In response to the rendering requests in step 3603, in step 3613, the first electronic equipment 36-1 can be to being stored in Audio data in memory is decoded to obtain audio signal.For example, the first electronic equipment 36-1 can be with decoding mono Audio data is to obtain audio signal.Alternatively, the first electronic equipment 36-1 can be with the first audio of decoding stereoscopic sound audio data Data, and can be with the second audio data of decoding stereoscopic sound audio data to obtain the second audio to obtain the first audio signal Signal.

In step 3617, at least part audio signal can be sent to the second electronics and set by the first electronic equipment 36-1 Standby 36-2.For example, the first electronic equipment 36-1 can be sent to the second electronic equipment 36-2 passes through decoding mono audio data And the audio signal obtained.Alternatively, the first electronic equipment 36-1 can pass through decoding stereoscopic to the second electronic equipment 36-2 transmissions Sound audio data and the first audio signal and the second audio signal obtained.

In step 3615, the first electronic equipment 36-1 can export at least part audio signal by its loud speaker.

In step 3621, the second electronic equipment 36-2 can be exported from the first electronic equipment 36-1 by its loud speaker and be connect The audio signal of receipts.For example, when confirming the battery remaining power of the second electronic equipment 36-2 less than the first electronic equipment 36-1's When battery remaining power, even if the second electronic equipment 36-2 stores identical audio data, the second electronic equipment 36-2 still can be with The audio signal received from the first electronic equipment 36-1 by the output of its loud speaker does not decode identical audio data yet.

For example, the first electronic equipment 36-1 can export for example obtained from stereo audio data the by its loud speaker One audio signal, and the second electronic equipment 36-2 can export be obtained from stereo audio data the by its loud speaker Two audio signals.This can provide the stereosonic chance of experience to the user.

The sequence for the step of Figure 36 can be changed, or may be performed simultaneously some operations.

Figure 37 is the signaling diagram of the communication stream of system according to an embodiment of the present disclosure.System 37 may include the first electronics Equipment 37-1 and the second electronic equipment 37-2.First electronic equipment 37-1 may include the first electronic equipment 5 of Fig. 6 whole or Some components.Second electronic equipment 37-2 may include all or some component of the second electronic equipment 6 of Fig. 6.

In step 3701, the first electronic equipment 37-1 and the second electronic equipment 37-2 can be connected to each other.

In step 3703, the first electronic equipment 37-1 can receive the reproduction to audio data stored in memory Request.

In step 3705, the first electronic equipment 37-1 and the second electronic equipment 37-2 can be believed with communicating battery residual capacity Breath.

Based on the exchange of battery remaining power information, in step 3707, the first electronic equipment 37-1 can be confirmed first Difference between the battery remaining power of electronic equipment 37-1 and the battery remaining power of the second electronic equipment 37-2 is less than critical value.

In response to the confirmation, in step 3709, the first electronic equipment 37-1 can be reproduced as it and make rendering requests Audio data.For example, the first electronic equipment 37-1 can be decoded audio data to obtain audio signal, and can lead to Cross its loud speaker exports audio signal.

In step 3711, the second electronic equipment 37-2 can be confirmed the battery remaining power of the first electronic equipment 37-1 with Difference between the battery remaining power of second electronic equipment 37-2 is less than critical value.

In response to the confirmation, in step 3713, the second electronic equipment 37-2 can reproduce phase stored in memory Same audio data.For example, the second electronic equipment 37-2 can be decoded audio data to obtain audio signal, and can be with Pass through its loud speaker exports audio signal.

The sequence for the step of Figure 37 can be changed, or may be performed simultaneously some operations.

Figure 38 is the signaling diagram of the communication stream of system according to an embodiment of the present disclosure.System 38 may include the first electronics Equipment 38-1 and the second electronic equipment 38-2.First electronic equipment 38-1 may include the first electronic equipment 5 of Fig. 6 whole or Some components.Second electronic equipment 38-2 may include all or some component of the second electronic equipment 6 of Fig. 6.

In step 3801, the first electronic equipment 38-1 and the second electronic equipment 38-2 can be connected to each other.

In step 3803, the reproduction that the first electronic equipment 38-1 can receive audio data stored in memory is asked It asks.

In step 3805, the first electronic equipment 38-1 can be sent to the second electronic equipment 38-2 to be reproduced with to it The relevant synchronizing signal of audio data of request.

Second electronic equipment 38-2 can not store identical audio data corresponding with synchronizing signal.In step 3807, Second electronic equipment 38-2 can will be sent to the first electronic equipment 38-1 with the relevant synchronization disabled response of synchronizing signal.

In response to the synchronization disabled response from the second electronic equipment 38-2, in step 3809, the first electronic equipment 38- 1, which can be decoded as it, makes the audio data of rendering requests, to obtain audio signal.

In step 3811, at least part audio signal can be sent to the second electronics and set by the first electronic equipment 38-1 Standby 38-2.For example, the first electronic equipment 38-1 can be with decoding mono audio data to obtain audio signal, and it can be by sound Frequency signal is sent to the second electronic equipment 38-2.Alternatively, the first electronic equipment 38-1 can be with the of decoding stereoscopic sound audio data One audio data, and can be with the second audio data of decoding stereoscopic sound audio data to obtain to obtain the first audio signal Two audio signals.Second audio signal can be sent to the second electronic equipment 38-2 by the first electronic equipment 38-1.

In step 3813, the first electronic equipment 38-1 can export at least part audio signal by its loud speaker.

In step 3815, the second electronic equipment 38-2 can be exported from the first electronic equipment 38-1 by its loud speaker and be connect The audio signal of receipts.For example, the second electronic equipment 38-2 can not reproduce identical audio data, and can be raised one's voice by it The audio signal that device output is received from the first electronic equipment 38-1.

For example, the first electronic equipment 38-1 can export for example obtained from stereo audio data the by its loud speaker One audio signal, and the second electronic equipment 38-2 can export be obtained from stereo audio data the by its loud speaker Two audio signals.This can provide the stereosonic chance of experience to the user.

The sequence for the step of Figure 38 can be changed, or may be performed simultaneously some operations.

Figure 39 is the communication flow diagram of system according to an embodiment of the present disclosure.System 39 may include the first electronic equipment 39-1, the second electronic equipment 39-2 and third electronic equipment 39-3.First electronic equipment 39-1 may include the first electronics of Fig. 6 All or some component of equipment 5.Second electronic equipment 39-2 may include all or some of the second electronic equipment 6 of Fig. 6 Component.Third electronic equipment 39-3 may include all or some component of the third electronic equipment 17 of Figure 17.

In step 3901, the first electronic equipment 39-1 and third electronic equipment 39-3 can be connected to each other.

In step 3903, the second electronic equipment 39-2 and third electronic equipment 39-3 can be connected to each other.

In step 3905, the first electronic equipment 39-1 and the second electronic equipment can be confirmed in the first electronic equipment 39-1 39-2 is in the state for being connected to third electronic equipment 39-3.

In step 3907, the first electronic equipment 39-1 and the second electronic equipment can be confirmed in the second electronic equipment 39-2 39-2 is in the state for being connected to third electronic equipment 39-3.

In response to the confirmation in step 3905 and step 3907, the first electronic equipment 39-1 and the second electronic equipment 39-2 can To exchange synchronizing signal in step 3909.For example, when the first electronic equipment 39-1 and the second electronic equipment 39-1 is mounted on figure When on 17 third electronic equipment 17, the first electronic equipment 39-1 and the second electronic equipment 39-2 exchange synchronizing signal, and can With the reproduction based on synchronizing signal synchronized audio data.

The sequence for the step of Figure 39 can be changed, or may be performed simultaneously some operations.

Although the disclosure has shown and described in some embodiments by reference to the disclosure, those skilled in the art will Understand, without departing from the scope of the disclosure, various changes can be carried out in form and details.Therefore, the disclosure Range should not be defined as being limited to embodiment, but should be defined by the appended claims and the equivalents thereof.

Claims (15)

1. a kind of electronic equipment, including:

Shell, including it is configured to the part being removably mounted on the ear of user;

Radio communication circuit, including in the housing;

Battery, including in the housing;

Loud speaker, including in the housing and when the ear that a part for shell is connected to user is arranged to face to user for the moment Ear drum membrane;

At least one sensor, including in the housing;

Processor, including in the housing and it is electrically connected to radio communication circuit, battery, loud speaker and at least one sensor; With

Memory, including in the housing and it is electrically connected to processor, memory is configured as storage audio data,

Wherein memory store instruction, the instruction make processor when executed:

By using telecommunication circuit, ask to connect from external equipment, which is configured as being removably mounted on user Another ear on;

It is set to the response of connection request and/or from outside based on whether receiving external equipment by the formation of requested connection At least part of the standby at least one signal received, determination will be from the parts that audio data stored in memory exports; With

Identified part is exported by loud speaker.

2. electronic equipment according to claim 1, wherein

At least one signal received from external equipment includes the status information of external equipment, and

Instruction makes processor be determined in audio data stored in memory according to the status information of the external equipment received The part to be exported.

3. electronic equipment according to claim 2, wherein described instruction make the processor:

In the case where the status information of the external equipment received includes first state, audio data is only exported by loud speaker Part, and

In the case where the status information of the external equipment received includes the second state, audio is fully exported by loud speaker Data.

4. electronic equipment according to claim 3, wherein include the first shape in the status information of the external equipment received In the case of state, described instruction makes processor:

It will be sent to external equipment with the relevant synchronizing signal of audio data;

It receives and the relevant response of synchronizing signal from external equipment;With

The part is exported to respond the response received by loud speaker, and

In the case where the status information of the external equipment received includes the second state, instruction is so that processing will not be with audio number It is sent to external equipment according to relevant synchronizing signal.

5. electronic equipment according to claim 1, wherein described instruction make the processor:

The status information of electronic equipment is obtained using at least one sensor;With

The status information of the electronic equipment of acquisition is sent to by external equipment by using telecommunication circuit.

6. electronic equipment according to claim 1, wherein described in the case where external equipment is not responding to connection request Instructing, which makes processor pass through loud speaker, fully exports audio data.

7. electronic equipment according to claim 2, wherein the first state includes that be located at user attached for the external equipment Close state, and

Second state includes the state that external equipment is not located near user.

8. electronic equipment according to claim 1, wherein the electronic equipment includes main equipment, and the outside is set It is standby include from equipment, and

Wherein described instruction includes hereinafter, making the processor when being executed:

When by loud speaker output determining part, the main time of electronic equipment is sent to external equipment, to synchronize electricity Time between sub- equipment and external equipment.

9. electronic equipment according to claim 8, wherein described instruction includes hereinafter, making the processing when executed Device:

Determine the first reproducing positions of the audio data that electronic equipment is reproducing,

It will be sent to external equipment based on the order of identified first reproducing positions.

10. electronic equipment according to claim 8, wherein described instruction includes hereinafter, making the processing when executed Device:

The second reproducing positions of the identical audio data that the external equipment reproduced is reproducing are received from external equipment,

Compare the first reproducing positions and the second reproducing positions, and

Order based on comparative result is sent to external equipment.

11. a kind of method of operation electronic equipment, including:

Receive the rendering requests for being stored in the audio data in the memory of electronic equipment;

Obtain the status information for the external equipment for being connected to electronic equipment;

Based on the part at least part determination audio data to be exported of acquired status information;With

Pass through the determining part of the loud speaker output of electronic equipment.

12. according to the method for claim 11, wherein whether the status information of external equipment is located at about external equipment Information near user.

13. according to the method for claim 12, wherein wanted at least part determination based on acquired status information When part in the audio data of output,

When confirming that external equipment is located near user, a part for audio data is determined, and

When confirming that external equipment is not located near user, audio data is fully determined.

14. according to the method for claim 12, further including:

Obtain the status information of electronic equipment;And the status information of the electronic equipment of acquisition is sent to external equipment.

15. according to the method for claim 12, further including:

Relevant synchronization request of audio data of rendering requests is sent and carried out to it to external equipment;With

When receiving synchronization disabled response from external equipment in response to synchronization request, at least part audio data is sent to External equipment.